JP2019132447A - Radiation panel, air conditioner, and radiation panel installation method - Google Patents

Abstract

To propose a radiation panel which can be easily fixed to a floor surface.SOLUTION: A hole (60) which is formed so that a fastening member (A) can be inserted thereinto and extends to one side edge (42a) of an attachment member (42) as seen in a thickness direction of the panel body (52) is formed at the attachment member (42).SELECTED DRAWING: Figure 8

Description

  The present disclosure relates to a radiation panel, an air conditioner, and a radiation panel installation method.

  Patent Document 1 discloses an air conditioner including a radiation panel (radiation type indoor unit). The radiant panel is installed on the indoor floor. For example, in the heating operation of the air conditioner, the heat of the refrigerant is released into the room through the heating element of the radiant panel.

Japanese Patent Laid-Open No. 2015-25627

  When installing a radiation panel on a floor surface, it is possible to fix the lower part (attachment member) of a radiation panel to a floor surface by a fastening member (anchor bolt etc.). Here, for example, in order to insert the anchor bolt fixed in advance to the floor into the hole of the mounting member, it is necessary to lift the radiation panel temporarily. In this case, there is a problem that the installation work of the radiation panel becomes complicated.

  An object of the present disclosure is to propose a radiation panel that can be easily fixed to a floor surface.

  A 1st aspect is provided with the panel main body (52) and the attachment member (42) provided in the downward direction of the said panel main body (52), A fastening member (A) can be inserted in the said attachment member (42). And a hole (60) extending to one side edge (42a) in the thickness direction of the panel body (52) in the attachment member (42). .

 In the first aspect, since the hole (60) of the attachment member (42) extends to one side edge (42a) of the attachment member (42), the fastening member is slid while sliding the radiation panel in the thickness direction. (A) can be positioned inside the hole (60).

  A 2nd aspect is a radiation panel characterized by the above-mentioned attachment member (42) being formed with a plurality of above-mentioned holes (60) in the 1st aspect.

  In the second aspect, the attachment strength of the attachment member (42) to the floor surface (F) is improved.

  A 3rd aspect is a radiation panel characterized by providing the cover (70) which covers the open surface between the said panel main body (52) and the said attachment member (42) in the 1st or 2nd aspect. is there.

  In a 3rd aspect, the aesthetics of a radiation panel can be improved by covering the fastening member (A) and other components inside a mounting member (42) with a cover (70).

  According to a fourth aspect, in the third aspect, the cover (70) is disposed so as to cover an open surface of the attachment member (42) on the side edge (42a) side, and the cover (70) An opening (73) extending to the lower end of the cover (70) is formed at a position facing the hole (60) at the lower edge of the radiant panel.

  In the fourth aspect, the fastening member (A) is positioned to the inside of the hole (60) through the opening (73) of the cover (70) even when the cover (70) is attached to the radiation panel (40). Can do.

  The fifth aspect includes an opening lid (80) that covers the opening (73) in the fourth aspect, and a lid attachment in which the opening lid (80) is detachably attached to the inside of the cover (70) It is a radiation panel provided with a part (74).

  In the fifth aspect, the opening (73) of the cover (70) can be covered with the opening lid (80). Also, the work of sliding the radiation panel (40) and the work of attaching the opening lid (80) can be performed from the same side (opposite the opening (73) of the cover (70)) across the radiation panel. it can.

  A sixth aspect is the radiation panel according to the fourth or fifth aspect, wherein the opening (73) of the cover (70) is configured to allow the drain hose (H) to be inserted therethrough.

  In the sixth aspect, the opening (73) for allowing the fastening member (A) to pass through also serves as an opening for inserting the drain hose (H).

  A 7th aspect is an air conditioning apparatus provided with the radiation panel (40) of any one of the 1st thru | or 6th aspect.

  The eighth aspect is a radiation panel installation method for installing the radiation panel (40) on the floor surface (F), and a step of providing a fastening member (A) protruding upward from the floor surface (F). And the fastening member (A) is positioned in the back of the hole (60) of the attachment member (42) from one side edge (42a) of the attachment member (42) provided below the radiation panel (40). Thus, there is a step of sliding the radiation panel (40).

FIG. 1 is a piping system diagram illustrating a schematic configuration of an air conditioner according to an embodiment. FIG. 2 is a front view illustrating a schematic configuration of the radiation panel according to the embodiment. FIG. 3 is an enlarged front view of the lower part of the radiation panel according to the embodiment. FIG. 4 is a plan view of the bottom plate according to the embodiment. FIG. 5 is an enlarged plan view of the vicinity of the hole in the bottom plate according to the embodiment. FIG. 6 is an enlarged perspective view of a main part of the radiation panel according to the embodiment. FIG. 7 is a cross-sectional view taken along the line III-III in FIG. 3 of the radiation panel according to the embodiment, and is a first diagram for explaining a process of installing the radiation panel. FIG. 8 is a cross-sectional view taken along the line III-III in FIG. 3 of the radiation panel according to the embodiment, and is a second diagram for explaining the process of installing the radiation panel. FIG. 9 is a cross-sectional view taken along the line III-III in FIG. 3 of the radiation panel according to the embodiment, and is a third diagram for explaining the process of installing the radiation panel. FIG. 10 is a cross-sectional view taken along the line III-III in FIG. 3 of the radiation panel according to the embodiment, and is a fourth diagram for explaining the process of installing the radiation panel. FIG. 11 is a view corresponding to FIG. 3 showing a state in which a drain hose is provided. FIG. 12 is a view corresponding to FIG. 5 of the bottom plate according to the other first example. FIG. 13 is a view corresponding to FIG. 5 of a bottom plate according to another second example.

<Embodiment>
The air conditioner (10) of this embodiment will be described with reference to the drawings.

<overall structure>
The air conditioner (10) performs switching between indoor cooling and heating. As shown in FIG. 1, the air conditioner (10) includes an outdoor unit (20), an indoor unit (30), and a radiation panel (40).

  The outdoor unit (20) is installed outdoors. The outdoor unit (20) constitutes a heat source unit. The outdoor unit (20) includes a compressor (21), an outdoor heat exchanger (22), an outdoor expansion valve (23), a four-way switching valve (24), and an outdoor fan (25).

  The indoor unit (30) is provided near the ceiling of the room. The indoor unit (30) constitutes a convection type indoor unit that performs cooling or heating by air conveyed by the indoor fan (33). The number of indoor units (30) is one or more. Each indoor unit (30) is provided with an indoor heat exchanger (31), an indoor expansion valve (32), and an indoor fan (33).

  The radiant panel (40) is installed on the indoor floor. The radiation panel (40) constitutes a radiation-type indoor unit that performs cooling or heating by the movement of radiant heat. The number of radiation panels (40) is one or more.

  In the air conditioner (10), the outdoor unit (20), the indoor unit (30), and the radiation panel (40) are connected through two connecting pipes. Thereby, the refrigerant circuit (11) in which the refrigeration cycle is performed is configured. In the refrigerant circuit (11) of the present embodiment, the indoor unit (30) and the radiation panel (40) are connected in parallel.

<Overall configuration of radiation panel>
The overall configuration of the radiation panel (40) will be described with reference to FIG. The radiation panel (40) includes a pair of support columns (41), a panel body (52), and a bottom plate (42).

  One support (41) is provided at each of the left and right ends of the radiation panel (40). Each column (41) is erected on the floor surface (F) and extends in the vertical direction.

  The panel body (52) is provided between the pair of support posts (41). The front surface and the rear surface of the panel body (52) are exposed to the indoor space.

  The bottom plate (42) extends left and right between the pair of support columns (41) so as to be connected to the lower ends of the pair of support columns (41). The bottom plate (42) is fixed to the indoor floor surface via anchor bolts (A) (details will be described later). The upper ends of the pair of support columns (41) are connected to a ceiling-side suspension bolt (not shown) via the fixing portion (43).

  In the radiation panel (40), a lower housing chamber (44) is formed below the panel body (52). The lower storage chamber (44) is provided with a drain pan (45) for collecting condensed water generated from the panel body (52). The open surfaces on the front side and the rear side of the lower storage chamber (44) are covered with the lower cover (70), respectively.

  In the radiation panel (40), an upper accommodation chamber (47) is formed above the panel body (52). The upper storage chamber (47) stores a liquid pipe (53) and a gas pipe (54) connected to the refrigerant circuit (11). A radiation expansion valve (50) (not shown in FIG. 2) is connected to the liquid pipe (53). The open surfaces on the front side and the rear side of the upper storage chamber (47) are covered with the upper cover (48), respectively. Each upper cover (48) is detachably attached to, for example, upper portions of a pair of support columns (41).

<Bottom plate>
The detailed configuration of the bottom plate (42) will be described with reference to FIGS. The bottom plate (42) constitutes an attachment member provided below the panel body (52). The bottom plate (42) extends left and right along the floor surface (F). The peripheral edge of the bottom plate (42) is folded upward. Both ends in the longitudinal direction of the bottom plate (42) are fixed to the corresponding support columns (41), respectively.

  Holes (60) into which the anchor bolts (A) can be inserted are formed at both ends (left side and right side portions) of the bottom plate (42). That is, a plurality (two in this example) of holes (60) are arranged in the bottom plate (42) in the longitudinal direction of the bottom plate (42). The number of holes (60) may be three or more, or may be one. The anchor bolt (A) is provided corresponding to the hole (60) of the bottom plate (42). The anchor bolt (A) is fixed to the floor portion so that the female thread portion protrudes upward from the floor surface (F) (details will be described later).

  Each hole (60) includes a fastening hole (61) in which the anchor bolt (A) is positioned, and a notch hole (62) continuous with the fastening hole (61). Each fastening hole (61) of the present embodiment is formed in an oval or elliptical shape extending in the longitudinal direction of the bottom plate (42). As shown in FIG. 5, the width W1 and the length L1 of the fastening hole (61) are larger than the outer diameter d of the female thread portion of the anchor bolt (A).

  Each notch hole (62) extends in the thickness direction of the panel body (52) from the fastening hole (61) to one side edge (rear edge (42a)) of the bottom plate (42). That is, the notch hole (62) is formed from the fastening hole (61) to the rear edge (42a). The notch hole (62) of this embodiment is formed in a rectangular shape. The front end of the opening (73) is continuous with the longitudinal intermediate portion of the fastening hole (61). The width W2 of the notch hole (62) is slightly larger than the outer diameter d of the female thread portion of the anchor bolt (A). Although details will be described later, the bottom plate (42) is fixed to the floor surface (F) by fastening a washer (W) and a nut (N) to the female thread portion of the anchor bolt (A).

<Lower cover>
The pair of lower covers (70) described above includes a front cover (70A) and a rear cover (70B) (see FIGS. 3, 6, and 10).

  The front cover (70A) is fixed to the pair of support columns (41) so as to cover the front open surface of the lower accommodation chamber (44) between the panel body (52) and the bottom plate (42). As shown in FIG. 6, a cover support (71) to which the front cover (70A) and the rear cover (70B) are detachably attached is provided inside each of the pair of support posts (41). On the front side of the cover support (71), an engagement hole (71a) is formed to engage with a claw provided on the inner surface (back surface) of the front cover (70A). Similarly, an engagement hole (71b) is formed on the rear side of the cover support (71) to engage with a claw portion (72) provided on the inner surface (front surface) of the rear cover (70B).

  Two openings (73) (notches) are formed in the lower portion of the rear cover (70B). The two openings (73) are formed at positions overlapping each hole (60) of the bottom plate (42) and the thickness direction (front-rear direction) of the panel body (52). The opening (73) is formed in a substantially rectangular shape in which corners on both lower side edges of the rear cover (70B) are cut off.

  An opening lid (80) that closes the opening (73) is detachably attached to the rear cover (70B). Specifically, the rear cover (70B) is provided with a lid attachment portion (74) to which the opening lid (80) can be attached on the inner surface (front surface). The lid attaching part (74) is disposed on the upper edge and the side edge of the opening (73). The lid attaching part (74) includes a projecting plate (75) projecting forward and a flange (76) extending from the tip of the projecting plate (75) to the outer peripheral side.

  The opening lid (80) is formed in a rectangular plate shape slightly larger than the opening (73). A fastening plate (81) to be fastened to the flange portion (76) of the lid attaching portion (74) is formed on the peripheral edge (upper edge and side surface) of the opening lid (80).

<Reinforcing plate>
As shown in FIG. 6, a reinforcing plate (85) is provided on the upper surface of the bottom plate (42) at a position corresponding to each hole (60). The reinforcing plate (85) includes a flat plate portion (86) and side plate portions (87) extending upward from the front end and the rear end of the flat plate portion (86). In the flat plate portion (86), a horizontally elongated notch groove (88) is formed at a laterally outer end of the bottom plate (42). The notch groove (88) extends from the side end of the flat plate portion (86) to the vicinity of the central portion of the flat plate portion (86). The reinforcing plate (85) is laid on the upper surface of the bottom plate (42) such that the notch groove (88) overlaps the fastening hole (61) in the thickness direction.

-Driving action-
The operation of the air conditioner (10) according to the embodiment will be described with reference to FIG. The air conditioner (10) switches between heating operation and cooling operation.

<Heating operation>
In the heating operation, the four-way switching valve (24) is in a state indicated by a broken line in FIG. The refrigerant compressed by the compressor (21) is sent to the indoor unit (30) and the radiation panel (40).

  In the indoor unit (30), the refrigerant dissipates heat (condenses) in the outdoor heat exchanger (22). The air heated by the refrigerant is supplied to the indoor space by the indoor fan (33).

  In the radiation panel (40), the refrigerant flows inside the panel body (52). As a result, the heat of the refrigerant is released from the panel body (52) to the indoor space.

  The refrigerant radiated by the indoor unit (30) and the radiation panel (40) is depressurized by the outdoor expansion valve (23) and then evaporated by the outdoor heat exchanger (22). The evaporated refrigerant is compressed again by the compressor (21).

<Cooling operation>
In the cooling operation, the four-way switching valve (24) is in the state indicated by the solid line in FIG. The refrigerant compressed by the compressor (21) is radiated (condensed) by the outdoor heat exchanger (22). The refrigerant dissipated by the outdoor heat exchanger (22) is sent to the indoor unit (30) and the radiation panel (40).

  In the indoor unit (30), the refrigerant flows through the indoor heat exchanger (31) after being depressurized by the indoor expansion valve (32). In the indoor unit (30), the refrigerant evaporates in the indoor heat exchanger (31). The air cooled by the refrigerant is supplied to the indoor space by the indoor fan (33).

  In the radiation panel (40), the refrigerant flows through the panel body (52) after being depressurized by the radiation expansion valve (50). As a result, the air around the panel body (52) is cooled.

  The refrigerant evaporated in the indoor unit (30) and the radiation panel (40) is compressed again by the compressor (21).

<Installation method of radiation panel>
A method for installing the radiation panel (40) on the floor (F) will be described in detail with reference to FIGS.

  In this installation method, first, a step of causing the anchor bolt (A) to protrude upward from the floor surface (F) is performed. Specifically, in this step, for example, the anchor bolt (A) is struck against the foundation (for example, concrete) on the back side of the floor surface (F) (floor panel). As a result, the anchor bolt (A) is fixed to the floor side, and the female thread portion of the anchor bolt (A) protrudes upward from the floor surface (F) (see FIG. 7). In the present embodiment, two anchor bolts (A) are provided on the floor surface (F) corresponding to the two holes (60) of the bottom plate (42).

  Next, as shown in FIG. 8, a step of positioning the anchor bolt (A) in the back of the hole (60) of the bottom plate (42) of the radiation panel (40) is performed. As a preparation stage of this process, only the rear cover (70B) is attached to the radiation panel (40), and the front cover (70A) is not attached. In the rear cover (70B), the opening lid (80) is not attached to the lid attaching portion (74), and each opening (73) of the rear cover (70B) is in an open state. Therefore, when the radiant panel (40) is slid in the direction of the arrow (rear) in FIG. 7, the anchor bolt (A) first passes through the opening (73) of the rear cover (70B). When the radiation panel (40) is further slid from this state, the anchor bolt (A) is inserted into the notch hole (62) from the rear edge (42a) side of the bottom plate (42), and then the hole (60) It is positioned in the back (that is, the fastening hole (61)) (see FIG. 8).

  The left and right length L1 of the fastening hole (61) is larger than the outer diameter d of the anchor bolt (A). For this reason, the radiation panel (40) can be slid in the width direction (left-right direction) so as to shift the relative positions of the anchor bolt (A) and the fastening hole (61) in the longitudinal direction. Thereby, the position of the width direction of a radiation panel (40) can be finely adjusted.

  Next, as shown in FIG. 9, the reinforcing plate (85) is laid on the upper side of the bottom plate (42). Specifically, the reinforcing plate (85) is slid outward in the longitudinal direction of the bottom plate (42) so that the anchor bolt (A) enters the notch groove (88) of the reinforcing plate (85). Thereby, a fastening hole (61) and a notch groove (88) overlap in the thickness direction.

  Next, as shown in FIG. 10, a washer (W) and a nut (N) are sequentially coupled to the female thread portion of the anchor bolt (A). Thereby, a baseplate (42) and a reinforcement board (85) are fastened by an anchor bolt (A), and a radiation panel (40) is fixed to a floor surface (F).

  Next, the opening lid (80) is attached to the lid attaching portion (74) of the rear cover (70B). As a result, the opening (73) of the rear cover (70B) is closed by the opening lid (80). Then attach the front cover (70A) to the radiant panel (40). Thereby, a lower accommodation room (44) is not exposed with respect to an in-room person, and the aesthetics of a radiation panel (40) can be improved.

<Installation of drain hose>
As described above, the opening (73) of the rear cover (70B) functions as an opening for positioning the anchor bolt (A) inside the radiation panel (40) while the rear cover (70B) is attached. In addition to this, as shown in FIG. 11, the opening (73) of the rear cover (70B) has an opening for inserting the drain hose for disposing the drain hose (H) outside the radiation panel (40). Also serves as. That is, the opening (73) of the rear cover (70B) is configured to allow the drain hose (H) to be inserted therethrough.

  Specifically, when connecting the drain hose (H) to the drain port (45a) of the drain pan (45), it is necessary to guide the outflow side of the drain hose (H) to a drain pipe or the like. In this case, the opening lid (80) is removed from the lid attaching portion (74) of the rear cover (70B), and the opening (73) is opened. And the outflow side of a drain hose (H) is arrange | positioned through the opening (73) to the exterior (rear side) of a radiation panel (40). Thereby, the drain hose (H) can be guided to the outside (rear side) of the radiation panel (40) without removing the rear cover (70B).

-Effect of the embodiment-
According to the embodiment, the hole (60) formed in the bottom plate (42) extends to one side edge (rear edge (42a)) in the thickness direction of the panel body (52). Therefore, the anchor bolt (A) can be positioned inside the hole (60) by sliding the radiation panel (40) along the floor surface (F). Therefore, the anchor bolt (A) can be inserted into the hole (60) of the bottom plate (42) without lifting the radiation panel (40) to a position higher than the anchor bolt (A).

  According to the above embodiment, since a plurality (two in this example) of holes (60) are formed in the bottom plate (42), the bottom plate (42) is formed by a plurality (two in this example) of anchor bolts (A). ) And the floor (F). Thereby, the attachment intensity | strength of a radiation panel (40) can be improved.

  According to the above embodiment, the lower cover (70) (front cover (70A) and rear cover (70B)) is attached between the panel body (52) and the bottom plate (42). For this reason, it can avoid that an anchor bolt (A) and other components (for example, drain pan (45)) are exposed to the exterior of a radiation panel (40). Therefore, the aesthetics of the radiation panel (40) can be improved.

  According to the above embodiment, the notch extending to the lower end of the rear cover (70B) at the position facing the hole (60) of the bottom plate (42) (position facing the anchor bolt (A)) in the rear cover (70B) ( Opening (73)) is formed. For this reason, the anchor bolt (A) can be positioned inside the hole (60) with the rear cover (70B) attached to the radiation panel (40). The radiant panel (40) may be arranged along, for example, an indoor wall surface, and there may be a case where a sufficient working space cannot be secured on the rear side of the radiant panel (40). Therefore, after the anchor bolt (A) is positioned in the hole (60), the rear cover (70B) can no longer be attached to the radiation panel (40). On the other hand, in this embodiment, after attaching the rear cover (70B), the radiation panel (40) can be slid to the vicinity of the wall surface.

  According to the above embodiment, the lid attaching portion (74) of the opening lid (80) is provided on the inner side (front side) of the rear cover (70B). Therefore, the occupant can attach the opening lid (80) to the rear cover (70B) from the front side. For this reason, as described above, even when the radiation panel (40) is slid to the vicinity of the wall surface, the opening lid (80) can be easily attached to the rear cover (70B).

  As described above, in the present embodiment, all of the series of steps described above shown in FIGS. 7 to 10 can be performed from the front side of the radiation panel (40). Accordingly, a sufficient work space can be secured and each work can be easily performed.

  According to the embodiment, the opening (73) of the rear cover (70B) also serves as an opening for inserting the drain hose (H). Therefore, the number of parts can be reduced or the radiation panel (40) can be simplified.

<< Other Embodiments >>
In the said embodiment and each modification, it is good also as following structures.

  The shape of the hole (60) of the bottom plate (42) is not limited to the above embodiment. For example, as shown in FIG. 12, the fastening hole (61) may be substantially circular. Further, for example, as shown in FIG. 13, the fastening hole (61) may have a substantially rectangular shape, and the planar shape of the entire hole (60) may be a bowl shape or an L shape.

  The hole (60) in the bottom plate (42) may extend to the front edge of the bottom plate (42). The front cover (70A) may be provided with an opening (73) and a lid attaching part (74).

  The indoor unit (30) can be installed on the floor or wall-mounted on the wall, in addition to the ceiling-mounted type (strictly, ceiling-suspended type or ceiling-mounted type) provided on the ceiling side. It may be a formula.

  The radiation panel (40) may be a ceiling-mounted type provided on the ceiling side or a wall-mounted type installed on a wall surface in addition to the floor-standing type.

  While the embodiments and modifications have been described above, it will be understood that various changes in form and details are possible without departing from the spirit and scope of the claims. In addition, the above embodiments and modifications may be appropriately combined or replaced as long as the functions of the subject of the present disclosure are not impaired.

  As described above, the present disclosure is useful for a radiation panel, an air conditioner, and a method for installing a radiation panel.

10 Air Conditioner 40 Radiant Panel 42 Bottom Plate (Mounting Member)
42a trailing edge (side edge)
52 Panel body 60 Hole 70 Cover 73 Opening 74 Lid mounting part 80 Opening lid

Claims (8)

The panel body (52),
An attachment member (42) provided below the panel body (52),
In the attachment member (42),
The fastening member (A) is configured to be insertable, and a hole (60) extending to one side edge (42a) in the thickness direction of the panel body (52) in the mounting member (42) is formed. Radiant panel characterized by In claim 1,
The mounting panel (42) is formed with a plurality of the holes (60). In claim 1 or 2,
A radiation panel comprising a cover (70) covering an open surface between the panel body (52) and the attachment member (42). In claim 3,
The cover (70) is disposed so as to cover an open surface on the one side edge (42a) side of the attachment member (42),
A radiation panel, wherein an opening (73) extending to the lower end of the cover (70) is formed at a position facing the hole (60) at a lower edge of the cover (70). An opening lid (80) covering the opening (73) according to claim 4,
A radiant panel, wherein a lid attaching portion (74) to which the opening lid (80) is detachably attached is provided inside the cover (70). In claim 4 or 5,
The opening (73) of the cover (70) is configured to allow a drain hose (H) to be inserted therethrough.   An air conditioner comprising the radiation panel (40) according to any one of claims 1 to 6. A radiation panel installation method for installing a radiation panel (40) on a floor (F),
Providing a fastening member (A) protruding upward from the floor (F);
The fastening member (A) is positioned at the back of the hole (60) of the mounting member (42) from one side edge (42a) of the mounting member (42) provided below the radiation panel (40). And a step of sliding the radiation panel (40). A method of installing the radiation panel.

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