CN204786892U

CN204786892U - Outdoor unit of air conditioner

Info

Publication number: CN204786892U
Application number: CN201520382327.XU
Authority: CN
Inventors: 山内秀高; 伊藤和穗
Original assignee: Mitsubishi Electric Corp
Current assignee: Mitsubishi Electric Corp
Priority date: 2014-06-06
Filing date: 2015-06-04
Publication date: 2015-11-18
Anticipated expiration: 2025-06-04
Also published as: EP2952822B1; US20150354840A1; JP6177193B2; EP2952822A1; CN105299778A; CN105299778B; JP2015230157A

Abstract

The utility model provides an outdoor unit of air conditioner, it possesses: a frame body having an opening on a back surface thereof and a discharge port on a front surface thereof; a heat exchanger (11) which covers the opening on the back surface of the frame from the inside of the frame; and a fan motor support member (20) having a blower fixed to the center thereof, the upper side of the fan motor support member (20) above the blower being engaged with the upper end side of the heat exchanger (11), the lower side of the blower being fixed to the bottom plate of the frame, an inverted U-shaped engagement plate (26) having a downward groove being provided on the upper side of the fan motor support member (20), a size adjustment portion (30) being fitted into the groove of the inverted U-shaped engagement plate (26), the size adjustment portion (30) fitting the heat exchanger (11) into the groove of the inverted U-shaped engagement plate (26) in a manner corresponding to the height and thickness of the heat exchanger (11).

Description

The off-premises station of air conditioner

Technical field

The utility model relates to the off-premises station of the air conditioner possessed the motor carrier part that the motor of pressure fan is fixed.

Background technology

In the off-premises station of air conditioner in the past, there is following off-premises station, it possesses motor carrier part, this motor carrier part is provided with engaging portion, and the upper end that this engaging portion has heat exchanger embeds and carries out locking downward groove (for example, referring to patent document 1) to heat exchanger.

Patent document 1: Japanese Unexamined Patent Publication 2006-177620 publication (summary, Fig. 2)

In off-premises station in the past, there is following problem, that is: need multiple motor carrier part according to the height of heat exchanger and thickness, thus need to make the same number of metal die for the formation of each motor carrier part, cause manufacturing cost to rise.In addition, because the quantity of parts also can increase, no matter be therefore that stock or the management aspect of circulation all can become numerous and diverse.

Utility model content

The utility model completes to solve problem as described above, and its object is to provides a kind of structure at motor carrier part to install miscellaneous part, thus realizes the common of parts, with the off-premises station of air conditioner that can be corresponding with multiple type.

The off-premises station of air conditioner of the present utility model possesses: framework, its backside openings, and has outlet at front surface; Heat exchanger, its inner side from this framework covers the opening at the back side of framework; And fan motor support unit, it is fixed with pressure fan at central portion, the upside more closer to the top than pressure fan is engaging in the upper end side of heat exchanger, the base plate of framework is fixed on than pressure fan downside more on the lower, the upside of fan motor support unit is provided with engaging portion, this engaging portion has downward groove, is embedded with size adjustment feature at the groove of engaging portion, and heat exchanger is embedded the groove of engaging portion by this size adjustment feature in mode corresponding to the height and thickness with heat exchanger.

Preferably, size adjustment feature is provided with downward groove, is embedded in the upper end of heat exchanger at this groove.

Preferably, a side of the groove forming engaging portion is provided with smooth stage portion, this stage portion is formed by a part for this side being cut to erect, the face of the stage portion side of size adjustment feature is provided with claw, time in the groove that this size adjustment feature embeds engaging portion, claw is engaging in described stage portion.

Preferably, possess the margining tablet of U-shaped, its be arranged at size adjustment feature with the face of the face opposite side of stage portion side, time in the groove that size adjustment feature embeds engaging portion, the movement of margining tablet to the left and right directions of this size adjustment feature limits.

Preferably, the padded coaming absorbing vibration is embedded at the groove of size adjustment feature.

According to the utility model, when the mode corresponding with the height and thickness with heat exchanger is carried out locking to fan motor support unit, size adjustment feature is embedded in, to make size adjustment feature engaging in the upper end of heat exchanger at the groove of the engaging portion of fan motor support unit.Like this, only use size adjustment feature just can use fan motor support unit, and do not change the structure of fan motor support unit itself.Therefore, it is possible to the increase of parts number of packages is suppressed for Min., thus no matter be that stock or the management aspect of circulation also can become easy, and then the resource-saving of material can be realized.

Accompanying drawing explanation

Fig. 1 is the stereogram of the outward appearance of the off-premises station of the air conditioner represented involved by embodiment of the present utility model.

Fig. 2 is the exploded perspective view of the off-premises station shown in Fig. 1.

Fig. 3 is the stereogram of the off-premises station of the state of unloading lower frame body, pressure fan and separating component in fig. 2.

Fig. 4 is the stereogram that the mode of observing obliquely from the front represents the size adjustment feature that the fan motor support unit of Fig. 2 uses.

Fig. 5 is the stereogram of the size adjustment feature representing Fig. 4 in the mode of observing from oblique rear.

Fig. 6 is the amplification view representing the top of the fan motor support unit of Fig. 3 in the mode of observing from arrow A-A direction.

Fig. 7 is the stereogram to represent the side, upper end of the fan motor support unit of Fig. 3 from the mode that tiltedly below is observed.

Fig. 8 is the stereogram of the state represented before the reverse U shape of fan motor support unit locking plate installation dimension adjusting portion.

Fig. 9 represents the stereogram having installed the state after size adjustment feature and padded coaming at the locking plate of the reverse U shape of fan motor support unit.

Figure 10 represents locking for the reverse U shape of fan motor support unit plate via size adjustment feature and the padded coaming stereogram engaging in the state of heat exchanger.

Figure 11 represents the stereogram fan motor support unit engaging in heat exchanger being fixed on the state of the base plate of framework.

Symbol description

1 ... front surface panel; 1a ... outlet; 1b ... fan shroud; 2 ... side panel; 3 ... top board; 4 ... base plate; 4a ... contraction flow region; 4b ... flange shape portion; 5 ... maintaining cover; 6 ... valve bonnet; 7 ... foot; 8 ... separating component; 9 ... supply fan room; 10 ... Machine Room; 11 ... heat exchanger; 12 ... pressure fan; 12a ... fan motor; 12b ... propeller fan; 14 ... compressor; 20 ... fan motor support unit; 21 ... column sections; 22 ... maintaining part; 23 ... pillar fixed part; 24 ... roof plate supporting portion; 25 ... locking support; 25a ... support plate; 26 ... the locking plate of reverse U shape; 26a ... a side; 26b ... cut standing piece; 26c ... stage portion; 26d ... groove; 27 ... screw; 30 ... size adjustment feature; 30a ... front surface; 30b ... the back side; 31 ... groove; 32 ... U-shaped margining tablet; 32a ... lateral plate; 33 ... claw; 34 ... projection tab; 40 ... padded coaming; 50 ... off-premises station; 51 ... framework.

Detailed description of the invention

Below, the embodiment of accompanying drawing to the off-premises station of air conditioner of the present utility model is used to be described in detail.In addition, the utility model is not limited to embodiment shown below.

Fig. 1 is the stereogram of the outward appearance of the off-premises station of the air conditioner represented involved by embodiment of the present utility model, and Fig. 2 is the exploded perspective view of the off-premises station shown in Fig. 1.

In Fig. 1, Fig. 2, the off-premises station 50 of present embodiment possesses framework 51, and this framework 51 is made up of the front surface panel 1 of L-shaped shape, side panel 2, top board 3 and base plate 4.Be provided with the outlet 1a being formed as toroidal in front surface panel 1, this outlet 1a is covered by fan shroud 1b.At side panel 2, the mode that can freely unload is provided with maintaining cover 5 and valve bonnet 6.The foot 7 of off-premises station 50 being fixed on placement surface is installed at the lower surface of base plate 4.The inside of off-premises station 50 is divided into supply fan room 9 and Machine Room 10 by the separating component 8 of く word shape.

Be accommodated with the heat exchanger 11 of L-shaped shape at supply fan room 9 and be configured at the pressure fan 12 in front of heat exchanger 11.In the present embodiment, the corrugated fin formula heat exchanger be such as made up of flat tube, corrugated fin (corrugatefin), house steward (headerpipe) etc. is used at heat exchanger 11.Pressure fan 12 is made up of the fan motor 12a and propeller fan 12b being fixed on fan motor support unit 20 described later.

When propeller fan 12b being rotated when relying on the driving of fan motor 12a, air (extraneous air) is attracted because of the rotation of this propeller fan 12b and by heat exchanger 11, thus in inflow off-premises station 50.Afterwards, this air is externally discharged via fan shroud 1b from the outlet 1a of front surface panel 1 by propeller fan 12b.Thus, such as, in cooling operation process, the cold-producing medium in heat exchanger 11 by Air flow, thus have passed the air of heat exchanger 11 and cold-producing medium heat exchange and becomes warm air.

The electric component etc. that the compressor 14 be arranged on base plate 4, cross valve, expansion valve, the tubing connection portion connected the refrigerant piping be connected with indoor set and the driving to compressor 14 and pressure fan 12 control is accommodated with in Machine Room 10.

Next, the structure of Fig. 3 ~ Fig. 6 to above-mentioned fan motor support unit 20 is used to be described.

Fig. 3 is the stereogram of the off-premises station of the state of unloading lower frame body, pressure fan and separating component in fig. 2, Fig. 4 is the stereogram that the mode of observing obliquely from the front represents the size adjustment feature that the fan motor support unit of Fig. 2 uses, Fig. 5 is the stereogram of the size adjustment feature representing Fig. 4 in the mode of observing from oblique rear, Fig. 6 is the amplification view representing the top of the fan motor support unit of Fig. 3 in the mode of observing from arrow A-A direction, and Fig. 7 is the stereogram to represent the side, upper end of the fan motor support unit of Fig. 3 from the mode that tiltedly below is observed.

Fan motor support unit 20 is arranged at the front of heat exchanger 11.This fan motor support unit 20 is made up of such as lower part: the column sections 21 of ladder-shaped; Be arranged at the maintaining part 22 of the pressure fan 12 of the central portion of column sections 21; Be arranged at the pillar fixed part 23 of the bottom of column sections 21; From the roof plate supporting portion 24 of the plate shape that the upper end of column sections 21 extends towards pressure fan 12 side in the mode of level; And from the locking support 25 that the upper end of column sections 21 extends towards the direction contrary with roof plate supporting portion 24 in the mode of level.

Pillar fixed part 23 is arranged at the front and back of column sections 21, and via being formed at flange (burring) the shape portion 4b of base plate 4, utilize screw 27 to be fixed on the top (with reference to Figure 11) of the contraction flow region 4a of the convex form being formed in base plate 4 from incline direction.As shown in Fig. 3 and Fig. 6, the support plate 25a of the plate shape that locking support 25 is extended in the mode of level by the upper end from column sections 21 and the locking plate 26 (engaging portion) of reverse U shape in the front end of this support plate 25a with downward groove 26d are formed.As shown in Figure 6, a side 26a of the formation groove 26d of the locking plate of this reverse U shape 26 is provided with smooth stage portion 26c, it is formed in the following way, that is: a part for the central authorities of side 26a is cut laterally erect and formed cut standing piece 26b, incision standing piece 26b is bent into right angle upward.

The height of above-mentioned fan motor support unit 20 is such as set as corresponding with the height of fin tube type heat exchanger, and in addition, the width of the groove 26d of the locking plate 26 of reverse U shape is formed as the size of more than the thickness of fin tube type heat exchanger.In other words, by the upper end of fin tube type heat exchanger is embedded in the groove 26d of the locking plate 26 of reverse U shape, thus can by fan motor support unit 20 engaging in fin tube type heat exchanger.

Size adjustment feature 30 has been embedded at the groove 26d of the locking plate 26 of the reverse U shape of locking support 25.This size adjustment feature 30 is set to make the fan motor support unit 20 of fin tube type heat exchanger along for the different corrugated fin formula heat exchanger of type.Corrugated fin formula heat exchanger is when comparing with identical capacity (performance) with fin tube type heat exchanger, and aspect ratio fin tube type heat exchanger is low, and Thickness Ratio fin tube type heat exchanger is thin.When fan motor support unit 20 being engaging in the less corrugated fin formula heat exchanger of size, by being embedded in size adjustment feature 30 at the groove 26d of the locking plate 26 of reverse U shape, thus can by fan motor support unit 20 engaging in corrugated fin formula heat exchanger.

Size adjustment feature 30 is made up of resin material, and as shown in FIG. 4 and 5, it is rectangular-shaped that it is formed as growing crosswise, and have downward groove 31 in bottom.Be provided with along the longer U-shaped margining tablet 32 of long side direction at the front surface 30a of column sections 21 side of this size adjustment feature 30.When being embedded in size adjustment feature 30 at the groove 26d of the locking plate 26 of the reverse U shape of fan motor support unit 20, this U-shaped margining tablet 32 embeds for the support plate 25a of fan motor carrier part 20.

When being embedded with the support plate 25a of fan motor support unit 20 at U-shaped margining tablet 32, the lateral plate 32a that size adjustment feature 30 movement is to left and right direction arranged at the two ends of U-shaped margining tablet 32 limits.In the center upper portion of the back side 30b of the opposite side of the U-shaped margining tablet 32 of size adjustment feature 30, be provided with two rearward outstanding claws 33.When in groove 26d size adjustment feature 30 being embedded the locking plate 26 of reverse U shape, these two claws 33 are hooked in the smooth stage portion 26c of the side 26a being formed in the locking plate of reverse U shape 26, thus fix in advance size adjustment feature 30.

In addition, on the top of size adjustment feature 30, the long side direction along size adjustment feature 30 is provided with multiple projection tab 34.This projection tab 34 and two claws 33 are utilized to limit the movement of the above-below direction of the size adjustment feature 30 in the groove 26d embedding the locking plate 26 of reverse U shape.In other words, can prevent size adjustment feature 30 from coming off from the locking plate 26 of reverse U shape.As shown in Figure 7, padded coaming 40 has been embedded at the groove 31 of size adjustment feature 30.This padded coaming 40 be set to for relax off-premises station 50 carry time vibration and running time vibration.

Next, the erection sequence of the fan motor support unit 20 when using Fig. 8 ~ Figure 11 to be corrugated fin formula heat exchanger to the heat exchanger 11 be arranged in off-premises station 50 is described.

Fig. 8 is the stereogram of the state represented before the reverse U shape of fan motor support unit locking plate installation dimension adjusting portion, Fig. 9 represents the stereogram having installed the state after size adjustment feature and padded coaming at the locking plate of the reverse U shape of fan motor support unit, Figure 10 represents that Figure 11 represents the stereogram fan motor support unit engaging in heat exchanger being fixed on the state of the base plate of framework by locking for the reverse U shape of fan motor support unit plate via size adjustment feature and the padded coaming stereogram engaging in the state of heat exchanger.

First, padded coaming 40 is embedded at the groove 31 of size adjustment feature 30.Then, to be embedded with groove 31 state down (with reference to Fig. 8) of padded coaming 40, from below size adjustment feature 30 is inserted (with reference to Fig. 9) in the groove 26d of the locking plate 26 of reverse U shape of fan motor support unit 20.Now, two claws 33 are together made to embed in the groove 26d of the locking plate 26 of reverse U shape with size adjustment feature 30.When these two claws 33 arrival are arranged at the stage portion 26c of the locking plate 26 of reverse U shape, two claws 33 rely on elastic force eject to stage portion 26c side thus be hooked in stage portion 26c.

Now, the projection tab 34 of size adjustment feature 30 contacts with the inside upper surface of the locking plate 26 of reverse U shape, and the U-shaped margining tablet 32 of size adjustment feature 30 is embedded in the support plate 25a of fan motor support unit 20, makes size adjustment feature 30 be fixed thus.In this case, the lateral plate 32a that size adjustment feature 30 movement is in left-right direction arranged at the both sides of U-shaped margining tablet 32 limits.

Via be fixed on the locking plate 26 of reverse U shape size adjustment feature 30 and by the upper end (with reference to Figure 10) of fan motor support unit 20 engaging in heat exchanger 11 (corrugated fin formula heat exchanger).In this case, the upper end of heat exchanger 11 embeds in the groove 31 of size adjustment feature 30.Afterwards, as mentioned above, the pillar fixed part 23 of fan motor support unit 20 is utilized screw 27 via be formed at base plate 4 flange shape portion 4b and be fixed on the convex form being formed at base plate 4 contraction flow region 4a on (with reference to Figure 11).

But, when only making the locking plate 26 of reverse U shape for metallic sheet material, needing to arrange the screwed hole shape being used for being fixed to support plate 25a, thus causing the mould of the fan motor support unit 20 to existing shape to be transformed.In addition, when be only made up of resin material reverse U shape locking plate 26, also there is the situation that the mould of fan motor support unit 20 is transformed, the vibration of off-premises station 50 when carrying or off-premises station 50 vibration in the running put on the linking part of metallic sheet material and resin material and cause stress to be concentrated, thus consideration has the situation of housing breakage.For this point, in the present embodiment, need not transform the mould of existing fan motor support unit 20, and be formed as following structure, that is: the form of the locking plate 26 of the reverse U shape size adjustment feature 30 of resin material being embedded fan motor support unit 20 is remained, make wider range chimeric with fan motor support unit 20, the stress dispersion of the size adjustment feature 30 putting on resin material can be made thus.

In addition, in the heat exchanger 11 being configured at base plate 4 in vertical manner, the height of fin tube type heat exchanger is higher, and thickness is also wider, in the off-premises station 50 being provided with fin tube type heat exchanger, also can not use size adjustment feature 30, therefore the gap of fin tube type heat exchanger and top board 3 necessitates MIN narrow amount.On the other hand, in the present embodiment, when being provided with the corrugated fin formula heat exchanger using size adjustment feature 30, compared with fin tube type heat exchanger, it is highly lower and that thickness is also thinning specification, therefore, under the state of the fan motor support unit 20 that size adjustment feature 30 will be provided with engaging in corrugated fin formula heat exchanger, the specification producing gap between corrugated fin formula heat exchanger and top board 3 can be become.But, this specification does not all have problems in the aspect of performance of off-premises station 50 and the intensity of structure, therefore do not need to add spacer etc. between top board 3, come the gap of the height difference that landfill causes because of the specification difference of corrugated fin formula heat exchanger.

As above, according to embodiment, that the fan motor support unit 20 corresponding with fin tube type heat exchanger is used in aspect ratio fin tube type heat exchanger is low, and when the thin corrugated fin formula heat exchanger of Thickness Ratio fin tube type heat exchanger, be embedded in size adjustment feature 30 by means of only the groove 26d at the locking plate 26 of the reverse U shape being arranged at fan motor support unit 20, fan motor support unit 20 just can be made engaging in corrugated fin formula heat exchanger.Like this, even if be the different heat exchanger of type, also can by means of only utilizing size adjustment feature 30 to use fan motor support unit, and do not change the structure of fan motor support unit itself, therefore, the increase of parts number of packages can be suppressed, for Min., no matter to be that stock or the management aspect of circulation all become easy thus, thus the resource-saving of material can be realized.

Claims

1. an off-premises station for air conditioner, is characterized in that, possesses:

Framework, its backside openings, and at front surface, there is outlet;

Heat exchanger, it covers the opening at the back side of this framework from the inner side of described framework; And

Fan motor support unit, it is fixed with pressure fan at central portion, and the base plate of described framework, engaging in the upper end side of described heat exchanger, is fixed in the upside more closer to the top than described pressure fan than described pressure fan downside more on the lower,

The upside of described fan motor support unit is provided with engaging portion, and this engaging portion has downward groove,

Be embedded with size adjustment feature at the groove of described engaging portion, described heat exchanger is embedded the groove of described engaging portion by this size adjustment feature in mode corresponding to the height and thickness with described heat exchanger.

2. the off-premises station of air conditioner according to claim 1, is characterized in that,

Described size adjustment feature is provided with downward groove, is embedded in the upper end of described heat exchanger at this groove.

3. the off-premises station of air conditioner according to claim 1 and 2, is characterized in that,

A side of the groove forming described engaging portion is provided with smooth stage portion, and this stage portion is formed by a part for this side being cut to erect,

The face of the described stage portion side of described size adjustment feature is provided with claw, and time in the groove that this size adjustment feature embeds described engaging portion, described claw is engaging in described stage portion.

4. the off-premises station of air conditioner according to claim 3, is characterized in that,

Possesses the margining tablet of U-shaped, its be arranged at described size adjustment feature with the face of the face opposite side of described stage portion side, time in the groove that described size adjustment feature embeds described engaging portion, the movement of described margining tablet to the left and right directions of this size adjustment feature limits.

5. the off-premises station of air conditioner according to claim 2, is characterized in that,

The padded coaming absorbing vibration is embedded at the groove of described size adjustment feature.