GB2621258A - Indoor unit for air conditioner - Google Patents

Abstract

This indoor unit for an air conditioner comprises: a cover member that can be moved between a cover position at which a portion of a wiring part is covered and an open position at which the wiring part is open; a slide member that can move in a sliding direction between a restriction position and a release position; and a first support member that has a head which supports from below the slide member in the restriction position and a shoulder part having a smaller diameter than the head, wherein the cover member has a first locking part in which is formed a first insertion hole through which the shoulder part is inserted, the first locking part is positioned above the slide member, and the equation La1 > Ta1 + Tb1 is satisfied.

Description

[DESCRIPTION]

[TITLE OF INVENTION]

INDOOR UNIT FOR AIR CONDITIONER

[Technical Field]

[0001] The present disclosure relates to an indoor unit of an air conditioner.

[Background Art]

[0002] An indoor unit of an air conditioner described in Patent Document I includes a lid that opens and closes a wire passing portion that passes an electric cable or the like.

The lid has a notch portion and is fixed using a screw. When opening and dosing the lid, the screw is loosened using a tool such as a driver or the like to cause the lid to slide. [Citation List] [Patent Document] [0003] [Patent Document 1]: Japanese Unexamined Patent Application, First Publication No. 2018-159525

[Summary of Invention]

[PROBLEM TO BE SOLVED BY THE INVENTION] [0004] In a typical indoor unit of an air conditioner, when opening and closing a lid, there is room to improve workability, since the use of a tool such as a driver or the like for loosening and tightening operations of a screw is needed.

[0005] The present disclosure has been made in order to address the problem above, and an object is to provide an indoor unit of an air conditioner that makes it easier to carry out the opening and closing operation of a wire passing portion.

[MEANS TO SOLVE THE PROBLEM] [0006] An indoor unit of an air conditioner according to the present embodiment includes a wire passing portion that passes a cable, a covering member that is movable between a covering position where the covering member covers at least a portion of the wire passing portion and an opening position where the wire passing portion is opened, a sliding member that is movable along a sliding direction between a restricting position that restricts a movement of the covering member and a releasing position that allows the movement of the covering member, and a first support member that has a head that supports the sliding member in the restricting position from a bottom side and a shoulder portion with a diameter that is smaller than the head. The covering member has a first locking portion in which a first insertion hole that passes the shoulder portion through is formed, the first locking portion is positioned in a top side more than the sliding member, and in an up-down direction, when a dimension of the shoulder portion is Lal, a thickness of a portion supported by the head out of thicknesses of the sliding member is Tal, and a thickness of the first locking portion is Tbl, Lal>Tal+Tb1 is satisfied. [EFFECTS OF THE INVENTION] [0007] According to the present disclosure, it is possible to provide an indoor unit of an air conditioner that makes it easier to carry out an opening and closing operation of a wire passing portion.

[Brief Description of Drawings]

[0008] HE 1 is a view that shows an example of a configuration of an air conditioner in an embodiment.

FIG. 2 is a perspective view of a state where a decorative panel is attached to an indoor unit in the embodiment.

HG. 3 is a perspective view of a state where the decorative panel is removed from the indoor unit of FIG. 2.

FIG. 4 is an enlarged view of a vicinity of an opening and closing mechanism in the embodiment.

FIG. 5 is an exploded view of the opening and closing mechanism in the embodiment.

FIG. 6 is a perspective view as seen from a bottom side of a sliding member in the embodiment.

FIG. 7 is a view as seen from a top side of a sliding member in the embodiment.

FIG. 8 is a perspective view-of the opening and closing mechanism when a covering member is in a covering position in the embodiment.

FIG. 9 is a cross-sectional view of the opening and closing mechanism when the sliding member is in a restricting position in the embodiment.

FIG. -I 0 is a cross-sectional view of the opening and dosing mechanism when the sliding member is in a releasing position in the embodiment.

FIG. 11 is a perspective view of the opening and closing mechanism when the covering member is inclined to the bottom side in the embodiment_ FIG. 12 is a perspective view of the opening and closing mechanism when the covering member of FIG. 11 is moved to an opening position.

[Description of Embodiments]

[0009] Hereinafter, an embodiment is explained with reference to drawings. hi explanations below, terms that define directions (for example, up, down or the like) are used where appropriate to facilitate understanding. In drawings, an up-down direction is represented by a Z axis. The +Z side is a top side, and the -Z side is a bottom side. [0010] First Embodiment FIG. 1 is a view that shows an example of a configuration of an air conditioner A according to a present embodiment. The air conditioner A includes an indoor unit 100, an outdoor unit 200, a gas refrigerant pipe 300, and a liquid refrigerant 400. Each of the gas refrigerant pipe 300 and the liquid refrigerant pipe 400 are connected to the indoor unit 100 and the outdoor unit 200. The outdoor unit 200 has a compressor 210, a four-way valve 220, an outdoor heat exchanger 230, and an expansion valve 240.

[00111 The compressor 210 compresses and discharges a coolant that is absorbed. For example, it is possible for the compressor 210 to change a capacity of the compressor 210 (an amount of the coolant being transported per unit time) by optionally changing an operational frequency using an inverter circuit or the like. The four-way valve 220 is a valve that switches the flow of the coolant between a cooler operation and a heater operation.

[0012] The outdoor heat exchanger 230 conducts heat exchange between the coolant and the air (outdoor air). For example, when in heater operation, the outdoor heat exchanger 230 functions as an evaporator, evaporating the coolant of a liquid phase. When in cooler operation, the outdoor heat exchanger 230 functions as a condenser to condense the coolant of a vapor phase.

[0013] The expansion valve 240 is a flow amount control means to control the amount of the coolant flow. The expansion valve 240 expands the coolant by decompressing the coolant. For example, in a case where the expansion valve 240 is electronic, the expansion valve 240 conducts an adjustment of a degree of opening, based on a command from a control device (not shown) or the like. An interior heat exchanger 110 conducts heat exchange between inside air and the coolant. When in heater operation, the interior heat exchanger 110 functions as the condenser, and condenses the coolant. When in cooler operation, the interior heat exchanger 110 functions as the evaporator, and evaporates the coolant.

The air conditioner A is configured as described above, and it is possible to realize the heater operation and the cooler operation by switching the flow of the coolant using the four-way valve 220.

FIG. 2 is a perspective view of a state where a decorative panel 50 is attached to the indoor unit 100 in the embodiment. FIG. 3 is a perspective view of a state where the decorative panel 50 is removed from the indoor unit 100. As an example of the indoor unit IOU, a four-directional cassette type indoor unit that sends air indoors from each of four air outlets 52 is shown. However, it is possible to apply the indoor unit 100 that is not a four-directional cassette type to a present disclosure.

100151 As shown in FIG. 3, the indoor unit 100 includes a housing 8 that opens towards the bottom side. The housing 8 is formed of a heat insulator for example. The decorative panel 50 is square shaped, and covers an opening portion of a bottom end of the housing 8. The indoor unit 100 is installed to an indoor ceiling in a state where the decorative panel 50 is disposed in an indoor space, and most of the housing 8 or the like is disposed on a back side of the ceiling (a top side from a ceiling surface). As shown in FIG. 2, the decorative panel 50 has an air inlet 51, and four air outlets 52. The air inlet 51 is provided in a center of the decorative panel 50, and is used to draw air into the indoor unit 100. The four air outlets 52 are disposed along each side (four sides) of the square shaped decorative panel 50, on a circumference of the air inlet 51. Each of the air outlets 52 is used to blow out air of which a temperature is adjusted to an indoors. [0016] As shown in FIG. 3, when the decorative panel 50 is removed from the housing 8 an opening and closing mechanism 1 is exposed. FIG. 4 is an enlarged view of a vicinity of the opening and closing mechanism 1 seen from the top side. A wiring opening 10 is provided right underneath the gas refrigerant pipe 300 and the connection pipe 9 of the liquid refrigerant. pipe 400 to insert a cable C through. The opening and closing mechanism 1 is provided further in the bottom side of the wiring opening 10. The cable C is for example a power cable or the like to supply electric power to the indoor unit 100. The cable C may be a transmission cable to conduct transmission between the indoor unit 100 and the outdoor unit 200. In the figure, although a number of the cable C is one, a case where a plurality of cables C are bundled may exist. [0017] FIG. 5 is an exploded view of the opening and closing mechanism 1 in the embodiment. The opening and closing mechanism 1 is configured to make opening and closing of a wire passing portion 5 that the indoor unit 100 has possible. The wire passing portion 5 is provided to pass the cable C, extending from an inside of the indoor unit 100 to the outside. Although the view of the wiring opening 10 is omitted from FIG. 5, the cable C is drawn out from the inside of the indoor unit 100 to the outside passing the wire passing portion 5 and the wiring opening 10. The wire passing portion in the present embodiment is a depression that sinks to the top side from a bottom surface of the housing 8. Further, the wire passing portion 5 may be formed in a configuration element other than the housing 8 out of the configuration elements of the indoor unit 100.

[0018] As shown in FIG. 5, the opening and closing mechanism 1 has a covering member 2, a fixing member 3, a sliding member 4, a first support member 6 and a second support member 7. The first support member 6 has a head 6a, a shoulder portion 6b, and a thread portion 6c. The second support member 7 has a head 7a, a shoulder portion 7b, and a thread portion 7c.

In other words, the first support member 6 and the second support member 7 is a shoulder bolt. The first support member 6 and the second support member 7 may have the same shape, and in such a case, and it is possible to commonly use parts in such case. [0019] The covering member 2 is disposed so as to cover the wire passing portion 5 from the bottom side. The covering member 2 has a cover main body 2a and locking portions 2b. The cover main body 2a is a plate shape that extends along a flat surface that is orthogonal to an up-down direction. Two connection portions 2g that protrude towards the up-down (+Z side) are formed on ends out of ends of the cover main body 2a. Each of the locking portions 2b extends farther away from the cover main body 2a from a top end portion of each of the connection portions 2g. In other words, each of the connection portions 2g connects each of the locking portions 2b to the cover main body 2a. Both of the locking portions 2b are positioned in the top side more so than the sliding member 4. When the sliding member 4 is supported by the first support member 6 and the second support member 7 from the bottom side, two locking portions 2b are

S

supported from the bottom side by the sliding member 4. In other words, the two locking portions 2b are indirectly supported by the first support member 6 and the second support member 7.

[0020] The two locking portions 2b are located on the top side more than the cover main body 2a. Guide walls 2c are formed in each of the locking portions 2b. Each of the guide walls 2e protrudes towards to the bottom side from an end of an opposite side of the connection portions 2g in each of the locking portions 2b. Each of the guide walls 2e faces each of the connection portions 2g. A first insertion hole 2c is formed on one out of the two locking portions 2b, while a second insertion hole 2d is formed on the other of the two locking portions 2b. In the explanation below, a locking portion 2b having the first insertion hole 2c formed is referred to as a "first locking portion 2b1", while the locking portion 2b having the second insertion hole 2d formed is referred to a as "second locking portion 2b2". A guide groove 2f is formed on a guide wall 2e of the first locking portion 2b1. The guide groove 2f penetrates the guide wall 2e, and has a long thin shape that extends along a direction the two locking portions 2b are arranged in. A sliding direction of the sliding member 4 coincides with a longitudinal direction of the guide groove 2f. hi the present description, an inner diameter of the first insertion hole 2c is represented as an "inner diameter Dbl". An inner diameter of the second insertion hole 2d is represented as an "inner diameter Dh2". The inner diameter Dbl is larger than the inner diameter Db2.

[0021] The fixing member 3 is fixed to the housing 8. In the present embodiment, the fixing member 3 is formed by working a sheet metal and insert molding the fixing 25 member 3 into the housing 8. However, the fixing member 3 may be fixed to the housing 8 by methods other than insert molding (for example, thread fastening or adhesive fixing). A first thread hole 3a and a second thread hole 3b are formed in the fixing member 3. The first thread hole 3a is disposed in a location that overlaps with the first insertion hole 2c, and the second thread hole 3b is disposed in a location that overlaps with the second insertion hole 2d. The first support member 6 that passes through the first insertion hole 2e in the first thread hole 3a is tightened. The second support member 7 that passes through the second insertion hole 2d in the second thread hole 3b is tightened.

[0022] FIG. 6 is a perspective view of the sliding member 4 as seen from the bottom side, and FIG. 7 is a view of the sliding member 4 as seen from the top side. As shown in FIG. 6 and FIG. 7, the sliding member 4 has a notch portion 4a thai passes the shoulder portion 6b of the first support member 6, and a long hole 4b that passes the shoulder portion 7b of the second support member 7 through. The sliding member 4 is slidably movable along the sliding direction shown in HG. 6. The sliding direction in FIG. 6 or the like is represented by a Y axis. A direction orthogonal to both the up-down direction (Z axis) and the sliding direction (Y axis) is referred to as an "orthogonal direction", and is represented by an X axis in FIG. 6 or the like.

[0023] The sliding direction is also a direction in which the notch portion 4a and the long hole 4b are arranged. Out of directions of the sliding direction, a direction from the long hole 4b towards the notch portion 4a is referred to as a "locking direction", a direction from the notch portion 4a towards the long hole 4b is referred to as an "opening direction". In FIG. 6 or the like, a +Y side is the opening direction, and a -Y side is the locking side. A viewing portion that shows the locking direction and the opening direction is provided on a bottom surface of the sliding member 4. Specifically, along with letters "OPEN" and "LOCK", arrows indicating each direction are formed as the viewing portion. By having the sliding member 4 slide with respect to the fixing member 3, it is possible for the sliding member 4 to switch between a state where a movement of the covering member 2 is restricted, and a state where the movement of the covering member 2 is allowable. A location of the sliding member 4 in a state where the movement of the covering member 2 is restricted is referred to as a "restricted location". The location of the sliding member 4 in a state where the movement of the covering member 2 is allowable is referred to as a "releasing position".

[0024] The sliding member 4 has the notch portion 4a that has a first area 4c, the long hole 4b that has a second area 4d, and a transition portion 4e that connects the first area 4c and the second area 4d. A first restricting surface 4d1 and a second restricting surface 4d2 are provided towards the bottom side in the second area 4d. The second restricting surface 4d2 is located so as to be more in the bottom side than the first restricting surface 4d1. The second restricting surface 4d2 is provided so as to be more on the opening direction opening direction (+Y side) than the first restricting surface 4d1 The long hole 4b is formed so as to straddle across the first restricting surface 4d1 and the second restricting surface 4d2. In other words, the long hole 4b is formed so as to straddle a step of the up-down direction provided in the second area 4d.

[0025] As shown in FIG. 7, the notch portion 4a opens towards the -Y side (locking direction). Protrusions 4f are formed on each surface of a pair of side surfaces that the long hole 4b has. A -side surface of the long hole 4W' is a surface that extends along the sliding direction on the inside of the long hole 4b. The pair of protrusions 4f are disposed in a location where the pair of protrusions 4f mutually face one another in the orthogonal direction to the sliding direction. In the present description, a width of the notch portion 4a in the orthogonal direction (X axis) is represented as a "width Wl". A gap between the pair of side surfaces of the long hole 4b in the orthogonal direction is represented as a "width W2". A gap between the pair of protrusions 4f in the orthogonal direction is represented as a "width Wt2". An outer diameter of the shoulder portion 7b of the second support member 7 is represented as an "outer diameter Dc2" (refer to FIG. 9). In the present embodiment W12 < Dc2 < W2.

[0026] The pair of protrusions 4f have a function of restricting the sliding member 4 from unintentionally moving (due to vibrations or the like) in the sliding direction with respect to the second support member 7, in a state where the shoulder portion 7b of the second support member 7 is passed through the inside of the long hole 4b. When an operator moves the sliding member 4 to a space between the restricting position and the releasing position, the protrusions 4f go over the second support member 7 in the sliding direction. At this time, the protrusions 4f and surrounding parts elastically deform the width WI of the long hole 4b so that the width WI expands. By having both of the protrusions 4f provided so as to face one another, it is possible to make an amount of the above elastic deformation be small. However, even if a number of the protrusions 4f is one, it is possible to demonstrate the function of restricting the sliding member 4 from unintentionally moving.

I00271 As shown in FIG. 6, an operation portion 4g is provided on each of both ends of the sliding member 4 in the sliding direction. The operation portion 4g is utilized by the operator when moving the sliding member 4 in the sliding direction. For example, when moving the sliding member 4 to the opening direction, the operator pushes in the operation portion 4g located on an end in the locking direction (-Y side). Inversely, when moving the sliding member 4 to the locking direction, the operator pushes in the operation portion 4g located on the end in the opening direction (+Y). The operation portion 4g in the present embodiment are both ends of the sliding member 4 in the sliding direction. However, a shape of the operation portion 4g may be changed appropriately, and may for example be a protruding shape or a ringed shape. When providing a shape (for example, a protruding shape of a ringed shape) such that it is possible for the operator to easily push or pull the operation portion 4g, it is possible to make a number of operation portions 4g the sliding member 4 has be one.

[0028] As shown in FIG. 6, a guide claw 4h is formed on the sliding member 4. The guide claw 4h forms an L shape when seen from the sliding direction. As shown in FIG. 8, the guide claw 4h is inserted into the guide groove 2f of the covering member 2.

Apart of the guide claw 4h protruding to the bottom side is locked to one of the guide walls 2e from the -X side. The guide claw 4h and the guide groove 2f make it possible for the sliding member 4 to move in the sliding direction with respect to the covering member 2, and make it possible for the covering member 2 and the sliding member 4 to integrally rotate.

[00291 FIG. 9 is a cross-sectional view of the opening and closing mechanism 1 when the sliding member 4 is in the restricting position. The shoulder portion 6b of the first support member 6 passes through the notch portion 4a of the sliding member 4 (refer to FIG. 7) and the first insertion hole 2c of the covering member 2. In this state, the thread portion 6c of the first support member 6 is tightened to the first thread hole 3a. The shoulder portion 7b of the second support member 7 passes through the long hole 4b of the sliding member 4 and the second insertion hole 2d of the covering member 2. In this state, the thread portion 7c of the second support member 7 is tightened to the second thread hole 3b.

100301 The first locking portion 2b1 of the covering member 2 and the sliding member 4 are sandwiched between the head 6a of the first support member 6 and the fixing member 3. The second locking portion 2b2 of the covering member 2 and the sliding member 4 are sandwiched between the head 7a of the second support member 7 and the fixing member 3. When the sliding member 4 is in the restricting position (FIG. 9), the head 7a of the second support member 7 overlaps the second restricting surface 4d2 in the up-down direction.

Although an outer diameter Dal of the head 6a of the first support member 6 is larger than the width W1 of the notch portion 4a of the sliding member 4, the outer diameter Dal is smaller than the inner diameter Dbl of the first insertion hole. In other words, Db-I >Da I >W -I is satisfied.

Although an outer diameter Da2 of the head 7a of the second support member 7 is larger than the width W2 of the long hole 4b of the sliding member 4, the outer diameter Da2 is larger than the inner diameter Db2 of the second insertion hole 2d of the covering member 2. In other words, Da2>W2 and Da2>Db2 are satisfied.

As shown in FIG. 9, a length in the up-down direction of the shoulder portion 6b of the first support member 6 is represented by a "dimension Lal". A thickness in the up-down direction of a part, the sliding member 4, sandwiched between the head 6a of the first support member 6 and the first locking portion 2b1 is represented by a "thickness Tal". In other words, out of thicknesses of the sliding member 4, the thickness Tal is the thickness in the up-down direction of a part that is supported from the bottom side by the head 6a. A thickness (plate thickness) in the up-down direction of the first locking portion 2b1 is represented by a "thickness Tbl". The dimension Lal is larger than the sum of sum total of the thickness Tal and the thickness Tbl. In other words, Lal>Tal+Tb1 is satisfied. Due to the above, the first support member 6 is tightened to the first thread hole 3a, and even in a state where the shoulder portion 6b contacts the fixing member 3, the covering member 2 and the sliding member 4 are not in a state of being compressed between the head 6a and the fixing member 3.

[0033] As shown in FIG. 9, a length in the up-down direction of the shoulder portion 7b of the second support member 7 is represented by a "dimension La2". A thickness in the up-down direction of the sliding member 4 of a part sandwiched between the head 7a of the second support member 7 and the second locking portion 2b2 is represented by a "thickness Ta2" when the sliding member 4 is in the restricting position. In other words, out of the thicknesses in the sliding member 4, the thickness Ta2 is the thickness in the up-down direction of a part that is supported from the bottom side by the head 7a. A thickness (plate thickness) in the up-down direction of the second locking portion 2b2 is represented by a "thickness Tb2". The dimension 1a2 is larger than the sum of sum total of the thickness Ta2 and the thickness Tb2. In other words, La2>Ta2+Tb2 is satisfied. Due to the above, the second support member 7 is tightened to the second thread hole 3b, and even in a state where the shoulder portion 7b contacts the fixing member 3, the covering member 2 and the sliding member 4 are not in a state of being compressed between the head 7a and the fixing member 3.

[0034] Satisfying Lal>Tal+Tb1 means that play (backlash) of the up-down direction exists between the head 6a of the first support member 6, the sliding member 4, the first locking portion 2b1, and the fixing member 3. Similarly, satisfying fia2>Ta2+Tb2 means that play exists between the head 7a of the second support member 7, the sliding member 4, the second locking portion 2b2, and the fixing member 3. From such a configuration, even if the sliding member 4 is in the restricting position, the sliding member 4 is not completely fixed. Therefore, it is possible to move the sliding member 4 that is in the restricting position in the sliding direction. To minimize the backlash of the opening and closing mechanism 1 when the sliding member 4 is in the restricting position, it is preferable to have a value of La2-(Ta2+Tb2) and Lal -(Tal+Tb1)) be less than [0035] When the sliding member 4 is in the restricting position, the protrusions 4f (refer to FIG. 7) are positioned so as to be more in the locking direction (-Y side) than the shoulder portion 7b of the second support member 7. As mentioned earlier, Wt2<Dc2<W2 is satisfied in the present embodiment. To move the sliding member 4 to the releasing position, a force of the opening direction is applied to the sliding member 4, and the protrusions 41 go over the shoulder portion 7b of the second support member 7 in the opening direction (+Y side). From the above, the sliding member 4 moves to the releasing position. In the releasing position, the protrusions 4f are more towards the opening direction from the center of the shoulder portion 7b of the second support member 7. At such time, an opening of the notch portion 4a passes through to the opening direction of the shoulder portion 6b of the first support member 6 in the first area 4c. Therefore, the notch portion 4a separates from the first support member 6.

[0036] FIG. 10 is a cross-sectional view of the sliding member 4 that is shifted further in the bottom side when the sliding member 4 is moved to the releasing position in the sliding direction. The shoulder portion 7b of the second support member 7 separates to the locking direction (-Y side) with respect to the second restricting surface 4d2 when the sliding member 4 is in the releasing position. A thickness in the up-down direction of the sliding member 4 of a part sandwiched between the head 7a of the second support member 7 and the second locking portion 2b2 is represented by a "thickness Tc2" when the sliding member 4 is in the releasing position. The thickness Tc2 is a plate thickness of the sliding member 4 in a part where the first restricting surface 4d1 is provided in the present embodiment. The thickness Tc2 is less than the previously mentioned thickness Ta2. Due to the above, a possible movement, amount in the up-down direction of the sliding member 4 and the second locking portion 2b2 increases by a difference between the thickness Ta2 and the thickness Tc2. From the above, it is possible to greatly incline the sliding member 4 and the second locking portion 2b2 between the head 7a of the second support member 7 and the fixing member 3.

[0037] FIG. 11 is a perspective view in a state where the sliding member 4 is tilted to the bottom side, where a vicinity of the second support member? as the center. By having the guide claw 4h be locked by the guide groove 21, the covering member 2 and the sliding member 4 incline to the bottom side as one entity when the sliding member 4 is inclined to lhe bottom side. When the covering member 2 is inclined as shown in FIG. 11, the first locking portion 2b1 separates to the bottom side from the first support member 6 and the first insertion hole 2c passes through the head 6a of the first support member 6 to the bottom side. From the above, it is possible for the covering member 2 to be rotatable around the up-down direction (Z axis), with the second insertion hole 2d (second support member 7) as the center.

[0038] FIG. 12 is a view of a state where the cover main body 2a is distanced from the wire passing portion 5, and the covering member 2 is rotated around the up-down direction, having the second insertion hole 2d and the second support member 7 as a center. As shown in FIG. 12, a position of the covering member 2 in a state where the wire passing portion 5 is opened is referred to as an "opening position". As opposed to the above, as shown in FIG. 8, the position of the covering member 2 where the covering member 2 covers at least a portion of the wire passing portion 5 is referred to as a "covering position". It is possible for the covering member 2 to be rotatable between the covering position and the opening position, with the second insertion hole 2d and the second support member 7 as the center. By having the guide claw 4h be locked by the guide groove 2f, it is possible for the sliding member 4 to rotate as one entity with the covering member 2. By opening the wire passing portion 5, the cover main body 2a is distanced from the wire passing portion 5, and the cable C is exposed. From the above, it is possible to conduct maintenance operations related to the cable C. At such time, the first support member 6 and the second support member 7 remain fixed to the fixing member 3. In other words, it is possible to open the wire passing portion 5 without the need to manipulate the first support member 6 and the second support member 7 with tools or the like. Also, the sliding member 4 and the covering member 2 are not distanced from the second support member 7, and are supported by the fixed head 7a of the second support member 7. Therefore, there is no need to remove and temporarily store the covering member 2 and the sliding member 4 when conducting maintenance operations.

[0039] After maintenance operations, the cover main body 2a rotates the covering member 2 around the second support member 7 to a position that overlaps with the wire passing portion 5 when returning the opening and closing mechanism I to an original position thereof Next, the first locking portion 2b1 is pushed up, and the head 6a of the first support member 6 is passed through an inside of the first insertion hole 2c. In this state, the sliding member 4 is slid from the releasing position to the restricting position and the locking direction. From the above, the shoulder portion 6b of the first support member 6 settles in the notch portion 4a in the first area 4c, and the sliding member 4 and the first locking portion 2b1 are locked by the head 6a of the first support member 6.

Simultaneously, the protrusions 4f go over the shoulder portion 7b of the second support member 7 in the locking direction (-Y side) at the second area 4d. The second restricting surface 4d2 and the second locking portion 2b2 are locked by the head 7a of the second support member 7. From the above, it is 15 possible to return the covering member 2 to a state where the covering member 2 covers the wire passing portion S. [0040] As shown in FIG. 9, when the sliding member 4 is returned to the restricting position, the play between the head 7a of the second support member 7 and the lixing member 3 becomes smaller. Due to the above, a large inclination of the covering member 2 and the sliding member 4 between the head 7a and the fixing member 3 is restricted. As such, the movement of the covering member 2 is restricted by returning the sliding member 4 back to the restricting position.

[0041] As in the above, the opening and closing mechanism 1 is configured such that it is possible to open the wire passing portion 5 without loosening the first support member 6 and the second support member 7. In other words, there is no need for any tools (screw drivers or the like) to loosen the first support member 6 and the second support member 7. However, a case where the operator mistakenly loosens the first support member 6 and the second support member 7 is conceivable. To suppress such erroneous operation, in the sliding member 4, a first blind 4i and a second blind 4j (refer to FIG. 6 or the like) are formed.

[0042] As shown in FIG. 9, the first blind 4i covers at least a portion of the first support member 6 from the bottom side when the sliding member 4 is in the restricting position.

Similarly, the second blind 4j covers at least a portion of the second support member 7 from (he bottom side when the sliding member 4 is in the restricting position. From such a configuration, it becomes harder for the operator to see the first support member 6 and the second support member 7, and it becomes difficult to conduct loosening operations of the first support member 6 and the second support member 7 with tools or the like. Therefore it is possible to suppress erroneous operations. As shown in FIG. 10, the first blind 4i and the second blind 4j are distanced from the first support member 6 and the second support member 7 when the sliding member 4 is moved to the releasing position. Therefore, it is possible to easily tighten the first support member 6 and the second support member 7 to the fixing member 3 when setting the indoor unit 100.

[0043] As explained above, the indoor unit 100 of the air conditioner A according to the present embodiment includes the wire passing portion 5 to pass the cable C, the covering member 2 movable between the covering position where at least a portion of the wire passing portion 5 is covered and the opening positon where the wire passing portion 5 is opened, the sliding member 4 that is movable in the sliding direction between the restricting position that restricts the movement of the covering member 2 and the releasing position that allows the movement of the covering member 2, and the first support member 6 that has the head 6a and the shoulder portion 6b having a smaller diameter than the head 6a supporting the sliding member 4 in the restricting position from the bottom side. The covering member 2 has the first locking portion 2b1 in which the first insertion hole 2c that passes the shoulder portion 6b through is formed. The first locking portion 2b1 is positioned in the top side more than the sliding member 4. In the up-down direction, when the dimension of the shoulder portion 6b is I,al, the thickness of a portion supported by the head 6a out of the thicknesses of the sliding member 4 is Tal, and the thickness of the first locking portion 2b] is Tbl, Lal>Tal+Tbl is satisfied.

[0044] From the configuration above, the sliding member 4 is supported from the bottom side by the head 6a of the first support member 6 when the sliding member 4 is in the restricting position. Simultaneously, the first locking portion 2b1 that is positioned more in the top side than the than the sliding member 4 is supported. Therefore, dangling due to weights of the sliding member 4 and the covering member 2 is suppressed. By moving the sliding member 4 to the releasing positon, the movement of the covering member 2 is allowed, and it is possible to move the covering member 2 from the covering position to the opening position. Therefore, it is possible to open the wire passing portion 5 to expose the cable C. By satisfying Lal>Tal+Tbl, no compression forces in the up-down direction are received by the sliding member 4 and the first locking portion 2b1 from the head 6a even when the first support member 6 is in a state of being tightened. Therefore, it is possible to move the sliding member 4 from the restricting position to the releasing position. Since no tools such as screw drivers or the like are needed to move the sliding member 4 it is possible to improve usability compared to a conventional case.

[0045] The inner diameter Dbl of the first insertion hole 2e is larger than the outer diameter Dal of the head 6a. From such a configuration, it is possible to move the covering member 2 so that the first insertion hole 2c passes through the head 6a in the bottom side when the sliding member 4 is positioned in the releasing position. From the above, it is possible to easily move the covering member 2 to the releasing position, dissolving the state where the first locking portion 2b1 is supported by the head 6a.

[0046] The notch portion 4a that passes the shoulder portion 6b is fonned in the sliding member 4. The notch portion 4a is open towards one side (-Y side) in the sliding direction. From such a configuration, it is possible to separate the shoulder portion 6b from the notch portion 4a when the sliding member 4 is slid to the releasing position.

Therefore it is possible to easily release a support by the head 6a of the sliding member 4.

[0047] The indoor unit 100 further includes the second support member 7 that supports from the bottom side the sliding member 4 in the restricting position and the releasing position. The covering member 2 has the second locking portion 2b2 in which the second insertion hole 2d that passes the second support member 7 through is formed. The second locking portion 2b2 is positioned more in the top side than the sliding member 4. From such a configuration, the sliding member 4 and the covering member 2 are supported from the bottom side at two locations of the first support member 6 and the second support member 7. Therefore, it is possible to effectively suppress the sliding member 4 and the covering member 2 from dangling due to the weights thereof. [0048] In the sliding member 4, the long hole 4b is formed extending along the sliding direction, and the second support member 7 is passed through the long hole 4b. From such configuration, it is possible to slide the sliding member 4 by having the long hole 4b and the second support member 7 be slidable with respect to one another.

[0049] The long hole 4b has the pair of side surfaces that extend in the sliding direction.

At least on a part of the pair of side surfaces, a protrusion 41 that protrudes in the orthogonal direction (X axis) that is orthogonal to both the sliding direction (Y axis) and the up-down direction (7. axis) is formed. The protrusion 41 goes over the second support member 7 in the sliding direction when the sliding member 4 is sliding between the restricting position and the releasing position. From such configuration, the sliding member 4 is suppressed by the protrusions 4f from unintentionally moving between the restricting position and the releasing position.

[0050] When the gap between the pair of side surfaces is W2, the width of the portion of the long hole 4b where the protrusions 4f are formed is W12, and the outer diameter of the portion (shoulder portion 7b) passed through the long hole 4b out. of the second support member 7 is Dc2, Wt2<De2<W2 is satisfied. From such a configuration, since Dc2<W2, it is possible to easily slide the second support member 7 with respect to the long hole 4b in portions other than the portions where the protrusions 4f are formed. Since Wt2<Dc2, it is possible to effectively suppress the sliding member 4 from unintentionally moving with respect to the second support member 7 by the protrusions [0051] The covering member 2 has the guide groove 2f that extends along the sliding direction. The sliding member 4 has the guide claw 4h that is locked to the guide groove 21 From such configuration, the sliding member 4 and the covering member 2 move as a one entity when moving the covering member 2 between the covering position and the releasing position. As such, it is possible improve operability by configuring the covering member 2 and the sliding member 4 so as not to separate from one another. It is possible to slide the sliding member 4 by having the guide claw 4h slidable with respect to the guide groove 2E [0052] When the sliding member 4 is in the restricting position the first. blind 4i that covers at least a portion of the first support member 6 from the bottom side is formed in the sliding member 4. From such configuration, it is possible to suppress the operator from erroneously operating the first support member 6 using a tool.

[0053] Further, the technical scope of the present disclosure is not limited to the embodiments above, and various changes are possible, so long as the scope of the object of the present disclosure is not deviated from.

[0054] For example, a configuration where the fixing member 3 is omitted, and the first support member 6 and the second support member 7 are directly fixed to the housing 8 may be adopted. Specifically, each of the thread portion 6c and 7c of the first support member 6 and the second support member 7 may be thread fastened directly onto the housing S. There is also no need to have the first support member 6 and the second support member 7 be shoulder bolts. For example, it is possible to have the first support member 6 and the second support member 7 be inserts that are formed onto the housing 8.

[0055] It is also possible to replace the configuration components in the embodiments above with conventional configuration components as appropriate, so long as there is no deviation from the technical scope of the present disclosure. It is also possible to appropriately combine or modify the above embodiments.

[Reference Signs List] [0056] 2...Covering Member 2b...Locking Portions 2b1...First Locking Portion 2b2...Second Locking Portion 2c...First Insertion Hole 2d...Second Insertion Hole 2f1..Guide Groove 4...Sliding Member 4a...Notch Portion 4b...Long Hole 4f...Protrusions 4h...Guide Claws 4i...First Blind 5...Wire Passing Portion 6...First Support Member 6a...Head 6b...Shoulder Portion 7...Second Support Member -100... Indoor Unit A...Air Conditioner C. ..Cable

Claims (9)

1. [CLAIMS] [Claim 1] An indoor unit of an air conditioner comprising: a wire passing portion that passes a cable; a covering member that is movable between a covering position where the covering member covers at least a portion of the wire passing portion, and an opening position where the wire passing portion is opened; a sliding member that is movable along a sliding direction between a restricting position that restricts a movement of the covering member, and a releasing position that 10 allows the movement of the covering member, and a first support member that has a head that supports the sliding member in the restricting position from a bottom side, and a shoulder portion with a diameter (hat is smaller than the head; wherein the covering member has a first locking portion in which a first insertion hole that passes the shoulder portion through is formed, the first locking portion is positioned in a top side more than the sliding member, and in an up-down direction, when a dimension of the shoulder portion is Lai, a thickness of a portion supported by the head out of thicknesses of the sliding member is Tal, and a thickness of the first locking porlion is Tbl, Lal>Tal+Tbi is satisfied.
2. [Claim 2] The indoor unit of the air conditioner according to claim I, wherein an inner diameter of the first insertion hole is larger than an outer diameter of the head.
3. [Claim 3] The indoor unit of the air conditioner according to claim 1 or 2, wherein a notch portion that passes the shoulder portion through is formed in the sliding member, and the notch portion is open towards one side in the sliding direction.
4. [Claim 4] The indoor unit of the air conditioner according to any one of claims 1 to 3 further comprising: a second support member that supports the sliding member in the restricting position and the sliding position from the bottom side; wherein the covering member has a second locking portion in which a second insertion hole that passes the second support, member through is formed, and the second locking portion is positioned in a top side more than the sliding member.
5. [Claim 5] The indoor unit of the air conditioner according to claim 4, wherein in the sliding member, a long hole is formed extending along the sliding direction, and the second support member is passed through the long hole.
6. [Claim 6] The indoor unit of the air conditioner according to claim 5, wherein the long hole has a pair of side surfaces that extend in the sliding direction, and at least on a part of the pair of side surfaces, a protrusion that protrudes in an orthogonal direction that is orthogonal to both the sliding direction and the up-down direction is for:rued, the protrusion goes over the second support member in the sliding direction when the sliding member is sliding between the restricting position and the releasing position.
7. [Claim 7] The indoor unit of the air conditioner according to claim 6, wherein when a gap between the pair of side surfaces is W2, a width of a portion of the long hole where the protrusions are formed is Wt2, and an outer diameter of the portion passed through the long hole out of the second support member is Dc2, Wt2<Dc2cW2 is satisfied.
8. [Claim 8] The indoor unit of the air conditioner according to any one of claims 1 to 7, wherein the covering member has a guide groove that extends along the sliding direction, and the sliding member has a guide claw that is locked to the guide groove.
9. [Claim 9] The indoor unit of the air conditioner according to any one of claims I to 8, wherein when the sliding member is in the restricting position, a first blind that covers at least a portion of the first support member from the bottom side is formed in the sliding member.