JP2014074574A - Indoor unit of air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an indoor of an air conditioner capable of preventing a pipe cover and other apparatus from being broken and damaged due to dropping of the indoor unit, and sharing the pipe cover corresponding to a magnitude of a capacity of an indoor heat exchanger.SOLUTION: In an indoor unit of an air conditioner in which an indoor heat exchanger is disposed in a unit body, and which includes: a pipe cover 13 covering a front face of an exposed portion of a heat exchange pipe at an end portion of the indoor heat exchanger for preventing scattering of water droplets condensed on a surface of the heat exchange pipe, the pipe cover 13 is fixed to the heat exchanger pipe of the indoor heat exchanger at one end fixing portion 15, the other end fixing portion 16 is fixed and disposed on the unit body or the other apparatus fixed and disposed in the unit body, and a shock absorbing portion 17 is disposed on a proper part between one end fixing portion 15 and the other end fixing portion 16 of the pipe cover 13.

Description

  The present invention relates to an indoor unit of an air conditioner including a pipe cover that covers a front side of a heat exchange pipe exposed from an end of an indoor heat exchanger.

  An indoor heat exchanger, indoor fan, drain pan, control box, etc. are installed in the unit body, and the front cover assembly is detachably installed on the front side of the indoor unit of the air conditioner. In indoor heat exchangers that use fin-and-tube heat exchangers, condensation may form on the surface of the heat exchange piping that protrudes outward from the side plate, and the condensed water drops and scatters around In order to prevent this, a pipe cover that covers the front side of the heat exchange pipe is installed at the end of the indoor heat exchanger (see, for example, Patent Document 1).

  This pipe cover is usually fixedly installed between the end of the indoor heat exchanger and the unit main body or a control box fixedly installed in the unit main body. By covering the front surface side of the heat exchange pipe projecting from the heat exchange pipe, it is possible to prevent the condensed water dripped from the heat exchange pipe from scattering to the periphery and to guide the condensed water into the drain pan.

JP 2010-121880 A

  However, since the piping cover is fixedly installed between the end of the indoor heat exchanger and the unit main body or other equipment fixedly installed in the unit main body, the indoor unit is dropped during transportation or transportation. When this is done, the impact load from the indoor heat exchanger will be applied to the piping cover as it is, and the impact load will cause the piping cover or the unit body where the piping cover is fixed to be installed or installed in the unit body. There was a risk of other equipment being damaged or damaged.

  Moreover, since a piping cover is provided in the front side of the edge part of an indoor heat exchanger, the contact part with the heat exchanger front surface is made into the shape match | combined with the shape of the edge part front surface of an indoor heat exchanger. On the other hand, the indoor unit may respond by changing the size of the indoor heat exchanger corresponding to its capacity. In this case, a so-called auxiliary heat exchanger is arranged in front of the small capacity indoor heat exchanger. As the capacity has increased, there has been a problem that another piping cover has to be prepared.

  The present invention has been made in view of such circumstances, and can prevent damage and damage to piping covers and other equipment due to falling indoor units, while reducing the capacity of the indoor heat exchanger. Accordingly, an object of the present invention is to provide an indoor unit of an air conditioner that can share a pipe cover.

In order to solve the above problems, the indoor unit of the air conditioner of the present invention employs the following means.
That is, the indoor unit of the air conditioner according to the present invention has an indoor heat exchanger installed in the unit body, covers the front surface of the exposed portion of the heat exchange pipe at the end of the indoor heat exchanger, In the indoor unit of the air conditioner provided with a piping cover that prevents scattering of water droplets condensed on the surface, the piping cover is fixedly installed at one end fixing portion on the heat exchange piping of the indoor heat exchanger, The other end fixing portion is fixedly installed on the unit main body or other equipment fixedly installed in the unit main body, and shock absorption is performed at an appropriate position between the one end fixing portion and the other end fixing portion of the pipe cover. A portion is provided.

  According to the present invention, since the pipe cover is provided so as to cover the front side of the exposed portion of the heat exchange pipe at the end of the indoor heat exchanger, scattering of water droplets condensed on the surface of the heat exchange pipe is prevented. In addition, leakage into the room can be prevented. In addition, the one end fixing portion is fixedly installed on the heat exchange pipe of the indoor heat exchanger, and the other end fixing portion is fixed on the unit main body or other equipment fixedly installed in the unit main body. Since an impact absorbing part is provided at an appropriate position between the one end fixing part and the other end fixing part, when the indoor unit falls during transportation or transportation, it is installed in the indoor heat exchanger and the unit body or in the unit body. An impact load is applied from the indoor heat exchanger to the piping cover that is fixed with other equipment that is installed, but the impact load is absorbed by the impact absorbing portion provided on the piping cover. Can be relaxed. Therefore, when the indoor unit is dropped, it is possible to prevent damage or damage to the pipe cover, the unit main body to which the pipe cover is fixed, or other equipment installed in the unit main body.

  Furthermore, the indoor unit of the air conditioner of the present invention is the indoor unit of the air conditioner described above, wherein the impact absorbing portion is configured by a U-shaped bent portion formed in the vicinity of the other end fixing portion. It is characterized by being.

  According to the present invention, since the shock absorbing part is constituted by a U-shaped bent part formed in the vicinity of the other end fixing part, the shock applied to the pipe cover from the indoor heat exchanger when the indoor unit is dropped. The load can be absorbed and alleviated by the bending deformation of the U-shaped bent portion formed in the vicinity of the other end fixing portion where the piping cover is installed in the unit main body or other equipment installed in the unit main body. it can. Therefore, when the indoor unit is dropped, it is possible to reliably prevent damage to or damage to the pipe cover or the unit main body to which the pipe cover is fixed or other equipment installed in the unit main body.

  Furthermore, the indoor unit of the air conditioner of the present invention is the indoor unit of any one of the above-described air conditioners, wherein the piping cover has the indoor heat at a contact portion with an end surface of the indoor heat exchanger. A knockout portion for sharing the piping cover is integrally formed corresponding to the capacity of the exchanger.

  According to the present invention, the knockout portion for sharing the piping cover is integrally formed at the contact portion of the piping cover with the end surface of the indoor heat exchanger corresponding to the capacity of the indoor heat exchanger. Therefore, when a unit body is shared and the capacity of the indoor heat exchanger is changed to configure indoor units with different capacities, a so-called auxiliary heat exchanger is placed in front of the indoor heat exchanger to increase the capacity. However, even in this case, when using with the basic capacity corresponding to the capacity of the indoor heat exchanger, when using the piping cover with the knockout part attached, By removing the portion and using the piping cover, one type of piping cover can be used in common. Therefore, it is not necessary to prepare separate piping covers according to the capacity of the indoor heat exchanger, and the cost can be reduced by reducing the number of molds and cost of the piping covers and improving the production efficiency of the piping covers. Can be planned.

  Furthermore, the indoor unit of the air conditioner of the present invention is the indoor unit of any one of the above-described air conditioners, wherein the pipe cover has a front surface of a grounding stop provided at an end of the indoor heat exchanger. The touch-proof wall which covers is integrally formed.

  According to the present invention, the touch cover is integrally formed on the piping cover so as to cover the front surface of the grounding stopper provided at the end of the indoor heat exchanger. Even when the indoor heat exchanger is in an exposed state, since the front surface of the grounding stopper provided at the end of the indoor heat exchanger is covered with a touch-proof wall, The situation where it touches can be prevented. Therefore, it is possible to improve the protection function against inadvertent electric shock and the like, and it is possible to reduce the number of parts by omitting the dedicated protective cover.

  According to the present invention, when the indoor unit is dropped during transportation or transportation, the piping cover is fixed between the indoor heat exchanger and the unit body or other equipment installed in the unit body. However, since an impact load is applied from the indoor heat exchanger, the impact load can be absorbed and alleviated by the impact absorbing portion provided in the piping cover. Therefore, when the indoor unit is dropped, the piping cover or the piping It is possible to prevent damage and damage to the unit main body to which the cover is fixed or other equipment installed in the unit main body.

It is a front view of the state which removed the front cover assembly of the indoor unit of the air conditioner which concerns on one Embodiment of this invention. It is the perspective view of the state which looked at the indoor unit of the air conditioner shown in FIG. 1 from the right front side. It is an enlarged view around the piping cover installation part in the indoor unit of the air conditioner shown in FIG. It is the front view (A) of the piping cover used for the indoor unit of the air conditioner shown in FIG. 1, its left and right side views (B), (C), a top view (D), and a bottom view (E).

Hereinafter, an embodiment of the present invention will be described with reference to FIGS. 1 to 4.
FIG. 1 shows a front view of an indoor unit of an air conditioner according to an embodiment of the present invention with a front cover assembly removed, FIG. 2 is a perspective view thereof, and FIG. FIG. 4 is an enlarged view around the cover installation portion, and FIG. 4 shows a configuration diagram of the piping cover.
The indoor unit 1 of the air conditioner includes a unit main body 2 including a base 3 and a front cover assembly (not shown) that is detachably attached to the front side of the base 3.

  In the unit main body 2, the indoor heat exchanger 4 that is bent or divided and arranged in a substantially Λ shape along the front surface, the upper surface, and the rear surface of the unit main body 2, and that is horizontally downstream of the indoor heat exchanger 4. The cross-flow fan (not shown) arranged in the figure, the motor for driving the fan, the drain pan 5 disposed at the lower part on the front side of the indoor heat exchanger 4 are integrally provided, and the louver and the flap 6 for adjusting the wind direction are provided. The blowout port assembly 7, the control box 8, and the like that are integrally incorporated are assembled and disposed on the base 3 as is well known.

  Then, the front cover assembly is assembled to the base 3 so as to cover the upper surface, front surface, and left / right surfaces of each of the above-described devices incorporated in the base 3. The front cover assembly is formed with a suction grill for sucking room air into the unit main body 2, and an air filter is incorporated on the back side thereof, and further, a filter cleaning mechanism for automatically cleaning the air filter, etc. May be incorporated.

  The indoor heat exchanger 4 is a plate fin & tube type heat exchanger, and a wind shielding plate 9 for preventing air flow bypass is provided at a bent portion or a divided portion. Also, plate fin & tube heat exchangers usually have a large number of plate fins 10 passed between the left and right plates of the hairpin tube, and then expand the hairpin tube so that the tube, the fin and the side plate are in close contact with each other. In addition, the open ends of adjacent hairpin tubes are connected to each other by a U vent pipe 11 to form a meandering pipe passage, and outward from the left and right side plates at the end of the heat exchanger. A heat exchange pipe 12 such as a bent part of the U vent pipe 11 and the hairpin tube is projected.

  When the indoor unit 1 provided with such an indoor heat exchanger 4 is cooled or dehumidified, low-pressure refrigerant is circulated through the indoor heat exchanger 4 and thus protrudes outward from the end of the indoor heat exchanger 4. Moisture in the air condenses on the surface of the heat exchange pipe 12 and drops as water droplets. If this water droplet drops on a component disposed below and scatters around the component, various problems may occur. In particular, in the right side portion where the control box 8 is disposed, there is a concern about influence on the electric system, leakage into the room, etc., so the front side of the heat exchange pipe 12, that is, the end of the indoor heat exchanger 4 The front surface on the part side is covered with a pipe cover 13.

  As shown in FIG. 4, the piping cover 13 is configured to fix and install a cover main body portion 14 that prevents the condensation water from scattering and one end side of the piping cover 13 to the end portion of the indoor heat exchanger 4. One end fixing portion 15, the other end fixing portion 16 for fixing and installing the other end side of the pipe cover 13 to the control box 8 which is another device in the unit main body 2, and dropping of the indoor unit 1 during transportation or transportation The capacity of the indoor heat exchanger 4 is large, corresponding to the capacity of the shock absorber 17 that absorbs and relaxes the impact load from the indoor heat exchanger 4 applied to the piping cover 13 and the capacity of the indoor heat exchanger 4. The knockout portions 18 and 19 that are removed and used, and the touch-proof wall 20 that covers the front surface of the grounding stop portion provided at the end of the indoor heat exchanger 4 are provided. ing.

  The cover main body 14 has a shape that covers the right end of the indoor heat exchanger 4 in the vertical direction, and particularly covers the front side of the gap between the right end of the indoor heat exchanger 4 and the control box (other equipment) 8. The part is wide. The one end fixing portion 15 fixedly installed at the end portion of the indoor heat exchanger 4 is a fitting portion that is fitted and fixed to the heat exchange pipe 12 protruding outward from one end portion of the indoor heat exchanger 4. The other end fixing portion 16 fixedly installed on the control box 8 is a flange portion provided with a hole 22 for fixing to one surface of the control box 8 via a screw 21.

  The impact absorbing portion 17 is configured by a U-shaped bent portion formed between the cover main body portion 14 and the other end fixing portion 16 extending from the cover main body portion 14. Moreover, the knockout parts 18 and 19 are integrally formed in a contact part with the end surface of the indoor heat exchanger 4 of the cover main body part 14, and when the indoor heat exchanger 4 is used with the basic capacity, the knockout part is used. In order to increase the capacity of the indoor heat exchanger 4 and make the indoor unit 1 have a large capacity specification, the so-called auxiliary heat exchanger is disposed in front of the indoor heat exchanger 4. When the capacity is increased, the knockout portions 18 and 19 are removed and used.

  Further, the touch-proof wall 20 is a wall surface integrally extended laterally from the lower position of the cover main body 14, and the terminal of the ground wire extending from the control box 8 is connected to the lower part of the indoor heat exchanger 4. It is set as the structure which has a magnitude | size which covers the front surface of the earthing | grounding stop part 23 (refer FIG. 3) currently fixed to the one end part of the side. Further, the lower end edge of the cover main body portion 14 is inclined, and water drops can be dropped into the drain pan 5 from the inclined tip 24 and can be collected via the drain pan 5. An appropriate number of reinforcing ribs 25 are integrally formed on the outer surface side of the cover main body 14.

With the configuration described above, according to the present embodiment, the following operational effects can be obtained.
When the air conditioner is cooled or dehumidified, the indoor heat exchanger 4 in the indoor unit 1 functions as an evaporator. As a result, the indoor air circulated through the indoor fan can be cooled and dehumidified, and the air can be supplied to cooling or dehumidification by blowing the air into the room. At this time, moisture in the air condenses on the surface of the heat exchanger pipe 12 protruding outward at the end of the indoor heat exchanger 4 through which the low-pressure refrigerant is circulated, and it drops as water droplets. is there. In order to prevent the water droplets from being scattered around and leaking into the room, a pipe cover 13 is provided, and the water drops are collected in the drain pan 5 by the pipe cover 13 and can be discharged to the outside.

  On the other hand, the pipe cover 13 has one end fixing portion 15 fitted and fixed to the heat exchange pipe 12 on the end side of the indoor heat exchanger 4, and the other end fixing portion 15 is a storage box in the unit body 2. 8 is fixed with screws 21 via a flange portion on one surface. The indoor unit 1 is packed in a cardboard box and is used for transportation and transportation, but may be dropped along the way. In this case, an impact load applied to the indoor heat exchanger 4 is applied from the indoor heat exchanger 4 to the pipe cover 13.

  However, in the present embodiment, since the shock absorbing portion 17 is provided at an appropriate position between the one end fixing portion 15 and the other end fixing portion 16 of the pipe cover 13, the indoor unit 1 is dropped during transportation or transportation. When the piping cover 13 is fixed between the indoor heat exchanger 4 and the control box 8 installed in the unit main body 1, an impact load applied from the indoor heat exchanger 4 side is applied to the piping cover 13. Can be absorbed and relaxed by the shock absorbing portion 17 provided in the housing. Therefore, when the indoor unit 1 is dropped, the pipe cover 13 or the unit main body 1 to which the pipe cover 13 is fixed or other equipment such as the control box 8 installed in the unit main body 1 is prevented from being damaged or damaged. can do.

  Further, the shock absorbing portion 17 is constituted by a U-shaped bent portion formed in the vicinity of the other end fixing portion 16. For this reason, when the indoor unit 1 is dropped, the impact load applied to the pipe cover 13 from the indoor heat exchanger 4 can be absorbed and relaxed by the bending deformation of the U-shaped bent portion. Accordingly, when the indoor unit 1 is dropped, the piping cover 13 is damaged, or the unit main body 1 to which the piping cover 13 is fixed or other equipment such as the control box 8 installed in the unit main body 1 is damaged or damaged. It can be surely prevented.

  Further, in the present embodiment, the pipe cover 13 is shared at the contact portion of the pipe cover 13 with the end surface of the indoor heat exchanger 4 in accordance with the capacity of the indoor heat exchanger 4. Knockout portions 18 and 19 are integrally formed. Thus, when the indoor unit 1 having a different capacity is configured by sharing the unit main body 1 and the like and changing the capacity of the indoor heat exchanger 4, a so-called auxiliary heat exchanger is disposed on the front surface of the indoor heat exchanger 4. Even when the capacity is increased, when the indoor heat exchanger 4 is used with the basic capacity corresponding to the capacity of the indoor heat exchanger 4, the piping cover 13 is used with the knockout portions 18 and 19 attached. When the capacity is increased, one kind of pipe cover 13 can be shared by removing the knockout portions 18 and 19 and using the pipe cover 13.

  Therefore, it is not necessary to prepare separate piping covers 13 corresponding to the capacity of the indoor heat exchanger 4, and by reducing the number of molds and mold costs of the piping covers 13 and improving the production efficiency of the piping covers 13. Cost reduction can be achieved.

  Furthermore, in this embodiment, since the pipe cover 13 is integrally formed with the touch-preventing wall 20 that covers the front surface of the grounding stopper 23 provided at the end of the indoor heat exchanger 4, it is possible to perform maintenance or the like. In addition, even when the front cover assembly is removed and the indoor heat exchanger 4 is exposed, the front surface of the grounding stopper 23 provided at the end of the indoor heat exchanger 4 is covered with the accessible wall 20. Therefore, it is possible to prevent a situation where the grounding stop 23 is inadvertently touched. Therefore, it is possible to improve the protection function against inadvertent electric shock and the like, and it is possible to reduce the number of parts by omitting the dedicated protective cover.

  In addition, this invention is not limited to the invention concerning the said embodiment, In the range which does not deviate from the summary, it can change suitably. For example, in the above-described embodiment, the other end fixing portion 16 of the pipe cover 13 is fixedly installed on one surface of the control box 8. However, the present invention is not limited thereto, and the other end fixing portion 16 of the pipe cover 13 is disposed on the unit body 1 side. A configuration in which the device is directly fixed or installed in a device other than the control box 8 may be employed.

1 Indoor unit 2 Unit body 4 Indoor heat exchanger 8 Control box (other equipment)
12 heat exchange piping 13 piping cover 15 one end fixing portion 16 other end fixing portion 17 shock absorbing portions 18 and 19 knockout portion 20 accessible wall 23 ground stop portion

Claims (4)

An indoor heat exchanger is installed in the unit body, and a pipe cover is provided to cover the front surface of the exposed portion of the heat exchange pipe at the end of the indoor heat exchanger and to prevent water droplets condensed on the surface of the heat exchange pipe from scattering. In the indoor unit of the air conditioner
The pipe cover has one end fixed part fixed to the heat exchange pipe of the indoor heat exchanger, and the other end fixed part fixed to the unit main body or other equipment fixedly installed in the unit main body. Installed,
An indoor unit of an air conditioner, wherein an impact absorbing portion is provided at a suitable position between the one end fixing portion and the other end fixing portion of the pipe cover.   The indoor unit of an air conditioner according to claim 1, wherein the shock absorbing portion is configured by a U-shaped bent portion formed in the vicinity of the other end fixing portion.   The piping cover is integrally formed with a knockout portion for sharing the piping cover corresponding to the capacity of the indoor heat exchanger at the contact portion with the end surface of the indoor heat exchanger. The indoor unit of an air conditioner according to claim 1 or 2, wherein The touch-preventing wall which covers the front surface of the earthing | grounding stop provided in the edge part of the said indoor heat exchanger is integrally shape | molded by the said piping cover, The Claim 1 thru | or 3 characterized by the above-mentioned. The indoor unit of the air conditioner described in 1.

Images