CN203413733U - Outdoor unit of refrigerating device - Google Patents

Abstract

Provided is an outdoor unit of a refrigerating device. Even when external force like falling objects is exerted on the outdoor unit, a separation plate can not move easily. The outdoor unit (3) of the refrigerating device comprises a shell (10) and the separation plate (70). The shell comprises a bottom plate (11), the separation plate is vertically arranged on the upper surface of the bottom plate to divide the internal space of the shell into an air supply machine chamber (SP1) and a machine chamber (SP2), and the separation plate separates the two chambers. A through hole forming part (71) extending along the upper surface of the bottom plate is arranged near the lower end of the separation plate. A through hole (72) is formed in the through hole forming part. A protrusion (100) protrudes upwards from the upper surface of the bottom plate and comprises a lower portion (100a) and a higher portion (100b), and the higher portion is located above the lower portion and wider than the lower portion. The protrusion (100) penetrates through the through hole forming part (71) through the through hole (72).

Description

The off-premises station of refrigerating plant

Technical field

The utility model relates to the off-premises station of refrigerating plant.

Background technology

Be known to the off-premises station of such refrigerating plant: in the inside of this off-premises station, be formed with the Machine Room of configuration compressor and the supply fan room of configuration heat exchanger and Air Blast fan, this off-premises station has the division board of two space isolation.For example,, at patent documentation 1(TOHKEMY 2011-174653 communique) in the off-premises station of disclosed refrigerating plant be configured to, at the upper surface of the base plate of indoor set, erect division board be set, by Machine Room and supply fan room isolation.

But, in the off-premises station of refrigerating plant in the past, such as at off-premises station owing to falling etc. while being subject to outside strength, division board likely departs from preposition.

[prior art document]

[patent documentation]

[patent documentation 1] TOHKEMY 2011-174653 communique

Utility model content

Therefore, problem of the present utility model is to provide a kind of off-premises station of refrigerating plant, makes division board be not easy to depart from preposition.

The off-premises station of the refrigerating plant of first aspect of the present utility model has housing and division board.Housing has base plate.Above base plate, dispose heat exchanger, Air Blast fan and compressor.Division board is erect the upper surface of being located at base plate, by the 1st space and the isolation of the 2nd space.In the 1st space, dispose heat exchanger and Air Blast fan.In the 2nd space, dispose compressor.Division board has the through hole forming portion of extending along the upper surface of base plate in lower end.In through hole forming portion, be formed with through hole.Base plate has the protuberance that protrude upward on surface from it.Protuberance has part 1 and part 2.Part 2 is positioned at than the top side's of part 1 position, and width is greater than the width of part 1.Protuberance connects through hole forming portion by through hole.

In the off-premises station of the refrigerating plant of first aspect of the present utility model, protuberance has part 2, and part 2 is positioned at than the top side's of part 1 position, and width is greater than the width of part 1.Therefore, between part 1 and part 2, be formed with step.Thus, at off-premises station, owing to falling etc. while being subject to outside strength, at division board, want when mobile, the edge of through hole is easily hooked on the step between part 1 and part 2 and stops.Therefore, division board is not easy to depart from preposition.

The off-premises station of the refrigerating plant of second aspect of the present utility model is according to the off-premises station of the refrigerating plant described in first aspect, and before and after the left and right Length Ratio of base plate, length is long.Division board is by the 1st space and the isolation of left and right, the 2nd space.Through hole extends along left and right directions.

In the off-premises station of the refrigerating plant of second aspect of the present utility model, through hole extends along left and right directions.Therefore, in the situation that off-premises station to the left and right any one party tilt and fall etc. and be subject to outside strength, when division board wants that any one party tilts and moves to the left and right, the edge of through hole is more easily hooked on the step between part 1 and part 2.

The off-premises station of the refrigerating plant of the third aspect of the present utility model is according to the off-premises station of the refrigerating plant described in second aspect, and part 2 forms border any one direction extension to the left and right from part 2 and part 1.

In the off-premises station of the refrigerating plant of the third aspect of the present utility model, part 2 from the border of itself and part 1 to the left and right any one direction extend.Therefore, the left and right any one party between part 1 and part 2 is formed with step.Thus, when division board wants that any one party tilts and moves to the left and right, the edge of through hole is more easily hooked on the step between part 1 and part 2.

The off-premises station of the refrigerating plant of fourth aspect of the present utility model is according to the off-premises station of the refrigerating plant described in second aspect, and part 2 forms from the border of part 2 and part 1 extends to the left and right.

In the off-premises station of the refrigerating plant of fourth aspect of the present utility model, part 2 is extended to the left and right from the border of itself and part 1.Therefore, the left and right between part 1 and part 2 is formed with respectively step.Thus, when division board wants that any one party tilts and moves to the left and right, the edge of through hole is more easily hooked on the step between part 1 and part 2.

The off-premises station of the refrigerating plant of the 5th aspect of the present utility model is according to the off-premises station of the refrigerating plant described in any one aspect in first～fourth aspect, and part 2 is formed at than 1/2nd the top side's of height and position of the height of protuberance position.

In the off-premises station of the refrigerating plant aspect the of the present utility model the 5th, part 2 is formed at than 1/2nd the top side's of height and position of the height of protuberance position.Therefore, step is formed in than 1/2nd the top side's of height and position of the height of protuberance position.Thus, when division board wants that any one party tilts and moves to the left and right, the edge of through hole is more easily hooked on the step between part 1 and part 2.

The off-premises station of the refrigerating plant of the 6th aspect of the present utility model is that housing has dismountable front panel according to the off-premises station of the refrigerating plant described in any one aspect in first～fourth aspect.Division board is overlooked and observed is crooked.Through hole forming portion is formed at when front panel is unloaded position that can Visual Confirmation.

In the off-premises station of the refrigerating plant aspect the of the present utility model the 6th, through hole forming portion is formed at when front panel is unloaded position that can Visual Confirmation.Therefore,, in the situation that making protuberance connect through hole, easily guarantee Visual Confirmation performance when division board is set.Therefore, arranging easily of division board carried out, and operating efficiency improves.

The off-premises station of the refrigerating plant of the 7th aspect of the present utility model is that housing has dismountable front panel according to the off-premises station of the refrigerating plant described in the 5th aspect.Division board is overlooked and observed is crooked.Through hole forming portion is formed at when stating front panel and unload position that can Visual Confirmation.

In the off-premises station of the refrigerating plant aspect the of the present utility model the 7th, through hole forming portion is formed at when stating front panel and unload position that can Visual Confirmation.Therefore,, in the situation that making protuberance connect through hole, easily guarantee Visual Confirmation performance when division board is set.Therefore, arranging easily of division board carried out, and operating efficiency improves.

The off-premises station of the refrigerating plant of eight aspect of the present utility model is according to the off-premises station of the refrigerating plant described in any one aspect in first～fourth aspect, and protuberance forms by cutting out to erect to process.

In the off-premises station of the refrigerating plant of eight aspect of the present utility model, protuberance erects processing and forms by cutting out.Therefore, do not need to use new parts can form protuberance.Therefore, can suppress the increase of manufacturing cost.

The off-premises station of the refrigerating plant of the 9th aspect of the present utility model is according to the off-premises station of the refrigerating plant described in the 5th aspect, and protuberance forms by cutting out to erect to process.

In the off-premises station of the refrigerating plant aspect the of the present utility model the 9th, protuberance forms by cutting out to erect to process.Therefore, do not need to use new parts can form protuberance.Therefore, can suppress the increase of manufacturing cost.

The off-premises station of the refrigerating plant of the tenth aspect of the present utility model is according to the off-premises station of the refrigerating plant described in the 6th aspect, and protuberance forms by cutting out to erect to process.

In the off-premises station of the refrigerating plant aspect the of the present utility model the tenth, therefore, do not need to use new parts can form protuberance.Therefore, can suppress the increase of manufacturing cost.

The effect of utility model

In the off-premises station of the refrigerating plant of first aspect of the present utility model, while making division board want to move off-premises station being applied to strength from outside, the edge of through hole is easily hooked on the step between part 1 and part 2, and division board is not easy to depart from preposition.

In the off-premises station of the refrigerating plant of second aspect of the present utility model and the third aspect, when division board wants that any one party tilts and moves to the left and right, the edge of through hole is more easily hooked on the step between part 1 and part 2.

In the off-premises station of the refrigerating plant aspect fourth aspect of the present utility model and the 5th, when division board wants that any one party tilts and moves to the left and right, the edge of through hole is more easily hooked on the step between part 1 and part 2.

Aspect the of the present utility model the 6th and in the off-premises station of the refrigerating plant of the 7th aspect, arranging easily of division board carried out, and operating efficiency improves.

In the off-premises station of the refrigerating plant aspect eight aspect of the present utility model and the tenth, can suppress the increase of manufacturing cost.

Accompanying drawing explanation

Fig. 1 is the outside drawing of aircondition that uses the off-premises station of an embodiment of the present utility model.

Fig. 2 is the isometric front view of state that the right plate of the off-premises station of an embodiment of the present utility model, back side grid, header board and top board are unloaded.

Fig. 3 observes the isometric front view of the off-premises station of an embodiment of the present utility model from the angle different from Fig. 2, but has omitted the structure in Machine Room.

Fig. 4 is the summary plane of state that the top board of an embodiment of the present utility model is unloaded, but has omitted the structure in Machine Room.

Fig. 5 is the enlarged drawing of the A part of Fig. 3.

Fig. 6 is the enlarged drawing of the B part of Fig. 4.

Fig. 7 is the cutaway view along the VII-VII line of Fig. 6.

Label declaration

1 aircondition; 3 off-premises stations; 11 base plates; 11a outer edge; 30 outdoor heat converters; 70 division boards; 70a, 70b return portion; 71 through hole forming portions; 72 through holes; 100 protuberances; 100a lower curtate; The high portion of 100b; 101 the 1st stage portion; 102 the 2nd stage portion; SP1 supply fan room; SP2 Machine Room.

The specific embodiment

Below, with reference to the accompanying drawings of embodiment of the present utility model.In addition, embodiment is below concrete example of the present utility model, does not limit technical scope of the present utility model.And, used in the following description the statement of upper and lower, left and right, front (front), the back side (afterwards) this expression direction, but as long as no specified otherwise, these directions refer to the direction shown in Fig. 2.

(1) aircondition 1

Fig. 1 is the outside drawing of aircondition 1.Aircondition 1 comprises indoor set 2, off-premises station 3 and refrigerant piping 4, can carry out cooling operation and heat running etc.

(1-1) indoor set 2

Indoor set 2 is arranged on indoor, mainly takes in indoor heat converter (not shown) and indoor fan (not shown) etc.

Indoor heat converter is intersection finned type heat exchanger.Indoor heat converter and indoor air carry out heat exchange, and the evaporimeter as cold-producing medium when cooling operation plays a role, and the radiator as cold-producing medium when heating running plays a role.Thus, indoor heat converter makes cold-producing medium evaporation or the condensation in internal flow, the cooling or heating by indoor air.Indoor heat converter is connected with outdoor heat converter 30 described later by refrigerant piping 4.

Indoor fan is cross flow fan.Indoor fan is arranged on the downstream of indoor heat converter, by motor (not shown), is driven.After this indoor fan is driven, from the suction inlet 2a(on indoor set 2 tops with reference to Fig. 1) room air that sucks is by indoor heat converter, and blown out from the blow-off outlet 2b of indoor set 2 bottoms.

(1-2) off-premises station 3

Below, the structure of off-premises station 3 is described with reference to Fig. 1～Fig. 4.Fig. 2 is the isometric front view of state that the right plate of off-premises station 3 13, back side grid 14, header board 15 and top board 16 are unloaded.Fig. 3 observes the isometric front view of off-premises station 3 from the angle different from Fig. 2.Fig. 4 is the summary plane of state that the top board of off-premises station 3 16 is unloaded.In addition, in Fig. 3 and Fig. 4, omitted the structure in Machine Room.

Off-premises station 3 is arranged on outdoor.The gabarit of off-premises station 3 consists of housing 10,4 leg 20 is installed and is being supported housing 10.Left and right, inside at housing 10 is formed with supply fan room SP1 and Machine Room SP2.Supply fan room SP1 is positioned at the left side of housing 10.At supply fan room SP1, outdoor heat converter 30 and outdoor fan 40 etc. have mainly been taken in.Machine Room SP2 is positioned at the right side of housing 10.At Machine Room SP2, compressor 50 and electric component unit 60 etc. have been taken in.Supply fan room SP1 and Machine Room SP2 are isolated plate 70 and separate.

(1-2-1) housing 10

Housing 10 is formed by metallic plate and synthetic resin etc., has roughly rectangular-shaped shape.Specifically, housing 10 utilizes base plate 11, left surface grid 12, right plate 13, back side grid 14, header board 15 and top board 16 to form its six faces (with reference to Fig. 1 and Fig. 4).In addition, these parts except base plate 11 (that is, left surface grid 12, right plate 13, back side grid 14, header board 15 and top board 16) can suitably be dismantled.

(1-2-1-1) base plate 11

Base plate 11 is the long roughly OBL metal plate-shaped members in left and right, forms the bottom surface portions (with reference to Fig. 4) of housing 10.The outer edge 11a of base plate 11 erects (with reference to Fig. 2 and Fig. 3) upward.At outer edge 11a, be formed with a plurality of screwed hole TH1, for fixedly left surface grid 12, right plate 13, back side grid 14 and header board 15(with reference to Fig. 2).And, at outer edge 11a, be formed with for the fixing screwed hole TH2 of division board 70.At the upper surface of base plate 11, erect and be provided with division board 70.And, near the division board 70 of the supply fan room SP1 of base plate 11 side, be formed with protuberance 100.About division board 70 and protuberance 100, will describe in detail in the back.

(1-2-1-2) left surface grid 12, right plate 13

Left surface grid 12 and right plate 13 are metal parts.Left surface grid 12 forms the left surface part of housing 10.Right plate 13 forms the right flank part of housing 10.Left surface grid 12 and right plate 13 arrange (with reference to Fig. 1～Fig. 3) opposed to each other.Left surface grid 12 and right plate 13 are arranged on base plate 11 by screwed hole TH1 screw thread in the mode of the outer surface butt with outer edge 11a.At left surface grid 12, be formed with a plurality of suction inlet 121(for the air from L direction (with reference to Fig. 4) suction chamber with reference to Fig. 3).In rear side separately of left surface grid 12 and right plate 13 and the edge of face side, be formed with up and down screwed hole TH3, for header board 15 and back side grid 14(being installed with reference to Fig. 3).

(1-2-1-3) back side grid 14, header board 15

Back side grid 14 and header board 15 are the metal parts that form the front and back part of housing 10, arrange opposite each otherly.Back side grid 14 and header board 15 are arranged on base plate 11 by screwed hole TH1 screw thread in the mode of the outer surface butt of the outer edge 11a with base plate 11.Grid 14 is formed with the larger suction inlet (not shown) for the air from R direction (with reference to Fig. 4) suction chamber overleaf.At header board 15, be formed with for the Air blowing in housing 10 is arrived to outside blow-off outlet 151(with reference to Fig. 1).

(1-2-1-4) top board 16

Top board 16 is the roughly OBL plate-shaped members of growing crosswise.Top board 16 forms the summit portion of housing 10, and to arrange with the opposed mode of base plate 11.The circumference 161 of top board 16 is to downward-extension (with reference to Fig. 1).Top board 16 is so that the mode of the inner surface of circumference 161 and left surface grid 12, right plate 13, back side grid 14 and header board 15 butts is carried out screw thread installation by screwed hole TH4, and screwed hole TH4 is formed at circumference 161.

(1-2-2) leg 20 is installed

Installation leg 20 is arranged near four jiaos of precalculated positions (with reference to Fig. 4) of base plate 11.It is the longer plate-shaped members in front and back that leg 20 is installed.Install leg 20 upper surface part protuberance and with the lower surface butt of base plate 11.And the lower surface that leg 20 is installed contacts with the setting table (not shown) that off-premises station 3 is set.Leg 20 performances are installed and guarantee the effect in the space between housing 10 and setting table.

(1-2-3) outdoor heat converter 30

Outdoor heat converter 30 is intersection finned type heat exchangers, and is taken between the outdoor air in housing 10 and is carried out heat exchange by outdoor fan 40.Outdoor heat converter 30 radiator as cold-producing medium when cooling operation plays a role, and makes the condensation of refrigerant in internal flow.In addition, outdoor heat converter 30 evaporimeter as cold-producing medium when heating running plays a role, and makes the cold-producing medium evaporation in internal flow.Outdoor heat converter 30 has to overlook observes the shape that is L word shape, is configured in the upper surface (with reference to Fig. 4) of base plate 11 from the left surface of housing 10 along the back side.

(1-2-4) outdoor fan 40

Outdoor fan 40 is configured in the face side (with reference to Fig. 4) of the outdoor heat converter 30 in supply fan room SP1.Outdoor fan 40 is propeller type fans, by fan motor 41, is driven.After outdoor fan 40 is driven, outdoor air is taken into housing 10 inside from the back side (R direction) and the left surface (L direction) of housing 10.And, the outdoor air that is taken into housing 10 inside by outdoor heat converter 30 from positive blow-off outlet 151(with reference to Fig. 1) to F direction, blow out (with reference to Fig. 4).

(1-2-5) compressor 50

Compressor 50 is closed-type compressors of built-in motor.Compressor 50 is configured in the SP2 of Machine Room (with reference to Fig. 2).The cold-producing medium of 50 pairs of inflows of compressor compresses.

(1-2-6) electric component unit 60

Electric component unit 60 comprises a plurality of electronic units, controls the driving of fan motor 41 and compressor 50 etc.Electric component unit 60 in the SP2 of Machine Room, be configured in compressor 50 above (with reference to Fig. 2).

(1-2-7) division board 70

Below, with reference to Fig. 2～Fig. 7, division board 70 is described.Fig. 5 is the enlarged drawing of the A part of Fig. 3.Fig. 6 is the enlarged drawing of the B part of Fig. 4.Fig. 7 is the cutaway view along the VII-VII line of Fig. 6.

Division board 70 is metal plate-shaped members, and setting (with reference to Fig. 2) is generally perpendicularly erect with respect to base plate 11 near position compressor 50.Overlook while observing, division board 70 bends to arcuation in the mode of heaving to supply fan room SP1 side.Near the end of the front and back of division board 70, be respectively equipped with return portion 70a and 70b(with reference to Fig. 4).Division board 70 is being arranged on (with reference to Fig. 5) on base plate 11 by screwed hole TH2 screw thread near the lower end of return portion 70a.And screwed hole (not shown) screw thread that division board 70 forms by the right-hand member face side at outdoor heat converter 30 at return portion 70b is arranged on outdoor heat converter 30.

Division board 70 is as playing a role in the interior next door by supply fan room SP1 and the isolation of Machine Room SP2 left and right of housing 10.In addition, division board 70 is also as playing a role for the protection walls of noise, suppresses the noise that the vibration due to compressor 50 grades produces and is leaked to outside from supply fan room SP1.

Face in the supply fan room SP1 side of the lower end of division board 70 is formed with through hole forming portion 71(with reference to Fig. 5).Through hole forming portion 71 forms to supply fan room SP1 side flatly extends, the upper surface butt of its lower surface and base plate 11.The OBL through hole 72(growing crosswise that is formed with depth D1=1.5mm, wide W1=9.0mm in through hole forming portion 71 is with reference to Fig. 6).Protuberance 100 connects through hole forming portion 71(with reference to Fig. 5 and Fig. 7 by through hole 72).

(1-2-8) protuberance 100

Below, with reference to Fig. 3～Fig. 7, protuberance 100 is described.In addition, for convenience of explanation, protuberance 100 is divided into lower curtate 100a and the high 100b of portion describes, but they are integrally formed.

Protuberance 100 be along 11b(with reference to Fig. 6) punched after, be cut out and erect as thick T1=0.8mm, high H1=10.0mm, Breadth Maximum W2=8.0mm.Protuberance 100 forms (with reference to Fig. 7) by lower curtate 100a and the high 100b of portion.In addition, the 11b in Fig. 6 is die-cut and cut out the hole that is formed at base plate 11 while erecting protuberance 100.

Lower curtate 100a with width along with towards top and the little mode of stenosis extends upward.The top view that lower curtate 100a has Breadth Maximum W3=5.0mm, minimum widith W4=4.0mm, high H2=5.0mm is the roughly shape of trapezoidal shape.And lower curtate 100a is connected with the high 100b of portion in the top.

The high 100b of portion is with crooked extension of mode that heave direction and top to the left and right of the border from itself and lower curtate 100a.The top view that the high 100b of portion has high H3=5.0mm, a Breadth Maximum W2=8.0mm is the shape of general triangular shape.

By such formation lower curtate 100a and the high 100b of portion, in the left and right of protuberance 100, formed the 1st stage portion 101 and the 2nd stage portion 102 of wide W5=2.0mm.By the 1st stage portion 101 and the 2nd stage portion 102, through hole forming portion 71 and through hole 72 are played a role, performance prevents the function that the division board of off-premises station 3 departs from.Below, describe in detail and prevent that division board from departing from function.

(2) prevent that division board from departing from function

In off-premises station 3, the weight of Machine Room SP2 side is greater than the weight of supply fan room SP1 side.Therefore,, in the situation that off-premises station 3 falls, easily to Machine Room SP2, roll and tiltedly fall.In the situation that off-premises station 3 tiltedly falls to Machine Room SP2 inclination, when landing, the Machine Room SP2 side from outside to base plate 11 applies strength, and division board 70 tilts and upsprings to swing to the mode of Machine Room SP2 side.Now, the edge hooking of through hole 72 is in the 1st stage portion 101 of protuberance 100, and division board 70 turns back to preposition from lifting status.

On the other hand, when in the situation that after Machine Room SP2 side lands the supply fan room SP1 side of off-premises station 3 land, or in the situation that off-premises station 3 tiltedly falls to supply fan room SP1 inclination, when the supply fan room SP1 side of base plate 11 being applied to strength from outside, division board 70 tilts and upsprings to swing to the mode of supply fan room SP1 side.Now, the edge hooking of through hole 72 is in the 2nd stage portion 102 of protuberance 100, and division board 70 turns back to preposition from lifting status.

That is, no matter division board 70 to which direction tilts and upsprings, and the edge of through hole 72 all hooking, in the 1st stage portion 101 of protuberance 100 or any one party in the 2nd stage portion 102, makes division board 70 turn back to preposition, prevents that thus division board 70 from moving.

(3) feature

（3-1）

In the above-described embodiment, division board 70 has through hole forming portion 71, in through hole forming portion 71, is formed with through hole 72.And base plate 11 has the protuberance 100 protruding upward.Protuberance 100 has the high 100b of portion, and the high 100b of portion is positioned at than the top side's of lower curtate 100a position, and width is greater than the width of lower curtate 100a.Therefore, between the high 100b of portion and lower curtate 100a, be formed with the 1st stage portion 101 and the 2nd stage portion 102.Thus, at off-premises station 3, fall etc. while being subject to external strength, at division board 70, want when mobile, the edge of through hole 72 is easily hooked on the 1st stage portion 101 or the 2nd stage portion 102 and stops.Therefore, can realize and make division board 70 be not easy to depart from preposition.

（3-2）

In the above-described embodiment, through hole 72 extends along left and right directions.Thus, in the situation that off-premises station 3 is subject to external strength when any one direction to the left and right tilts and falls etc., when division board 70 wants that any one direction tilts and moves to the left and right, can realize and make the edge of through hole 72 more easily be hooked on the 1st stage portion 101 or the 2nd stage portion 102.

（3-3）

In the above-described embodiment, the high 100b of portion is from the border direction extension to the left and right of the high 100b of portion and lower curtate 100a.Therefore, between the high 100b of portion and lower curtate 100a, left and right is formed with the 1st stage portion 101 and the 2nd stage portion 102 respectively.Thus, when division board 70 wants that any one direction tilts and moves to the left and right, can realize and make the edge of through hole 72 more easily be hooked on the 1st stage portion 101 or the 2nd stage portion 102.

（3-4）

In the above-described embodiment, the high 100b of portion is formed at than 1/2nd the top side's of height and position of the height of protuberance 100 position.Therefore, than 1/2nd the top side's of height and position of the height of protuberance 100 position, be formed with the 1st stage portion 101 and the 2nd stage portion 102.Thus, when division board 70 wants that any one direction tilts and moves to the left and right, can realize and make the edge of through hole 72 more easily be hooked on the 1st stage portion 101 or the 2nd stage portion 102.

（3-5）

In the above-described embodiment, through hole forming portion 71 is formed at when header board 15 is unloaded position that can Visual Confirmation.Therefore,, in the situation that making protuberance 100 connect through hole 72, easily guarantee Visual Confirmation performance when division board 70 is set.Therefore, arranging easily of division board 70 carried out, and operating efficiency improves.

（3-6）

In the above-described embodiment, protuberance 100 forms by cutting out to erect to process.Therefore, do not need to use new parts can form protuberance 100, can suppress the increase of manufacturing cost.

(4) variation

(4-1) variation 1a

In the above-described embodiment, off-premises station 3 is applicable to aircondition 1, but is not limited to this.For example, also go for other refrigerating plants such as hot water supply apparatus.

(4-2) variation 1b

In the above-described embodiment, through hole forming portion 71 is configured to extend abreast with base plate 11, and with the upper surface butt of base plate 11, but be not limited to this.For example, also can be arranged to make to there is gap between through hole forming portion 71 and the upper surface of base plate 11.And, can be not parallel with base plate 11 yet.

(4-3) variation 1c

In the above-described embodiment, through hole forming portion 71 is formed at the face of the supply fan room SP1 side of division board 70, but is not limited to this.For example, also can be formed at the face of Machine Room SP2 side.

(4-4) variation 1d

In the above-described embodiment, the width W 1 of through hole 72 forms the Breadth Maximum W2 that is greater than protuberance 100, but is not limited to this.Through hole 72 is so long as the size that protuberance 100 can connect can be also the Breadth Maximum W2 that width W 1 is less than protuberance 100.

(4-5) variation 1e

In the above-described embodiment, from top view, lower curtate 100a forms roughly trapezoidal shape, and the high 100b of portion forms general triangular shape, but is not limited to this.For example, also can form from the top view shape that is roughly rectangle.And, also can form and make the 1st stage portion 101 and the 2nd stage portion 102 there is difference of height.

(4-6) variation 1f

In the above-described embodiment, protuberance 100 forms by cutting out to erect to process, but is not limited to this, also can utilize other technique to form.And, also can append new parts and form protuberance 100.

Utilizability in industry

The utility model can be used in the off-premises station of refrigerating plant.

Claims (10)

1. the off-premises station of a refrigerating plant (3), is characterized in that,

This off-premises station has:

Housing (10), it has base plate (11), and heat exchanger (30), Air Blast fan (40) and compressor (50) are configured in the top of described base plate; And

Division board (70), the upper surface of described base plate is located in its setting, the 2nd space (SP2) isolation by the 1st space (SP1) of the described heat exchanger of configuration and described Air Blast fan with the described compressor of configuration,

Described division board has the through hole forming portion (71) of extending and be formed with through hole (72) along the upper surface of described base plate in lower end,

Described base plate has the protuberance (100) that protrude upward on surface from it,

Described protuberance has part 1 (100a) and part 2 (100b), this part 2 is positioned at than the top side's of described part 1 position, and width is greater than the width of described part 1, described protuberance connects described through hole forming portion by described through hole.

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

Before and after the left and right Length Ratio of described base plate, length is long,

Described division board is isolated described the 1st space and described the 2nd left and right, space,

Described through hole extends along left and right directions.

3. the off-premises station of refrigerating plant according to claim 2, is characterized in that,

Described part 2 forms border any one direction extension to the left and right from described part 2 and described part 1.

4. the off-premises station of refrigerating plant according to claim 2, is characterized in that,

Described part 2 forms from the border of described part 2 and described part 1 extends to the left and right.

5. according to the off-premises station of the refrigerating plant described in any one in claim 1～4, it is characterized in that,

Described part 2 is formed at than 1/2nd the top side's of height and position of the height of described protuberance position.

6. according to the off-premises station of the refrigerating plant described in any one in claim 1～4, it is characterized in that,

Described housing has dismountable front panel (15),

Described division board is overlooked and observed is crooked,

Described through hole forming portion is formed at when described front panel is unloaded position that can Visual Confirmation.

7. the off-premises station of refrigerating plant according to claim 5, is characterized in that,

Described housing has dismountable front panel (15),

Described division board is overlooked and observed is crooked,

Described through hole forming portion is formed at when described front panel is unloaded position that can Visual Confirmation.

8. according to the off-premises station of the refrigerating plant described in any one in claim 1～4, it is characterized in that, described protuberance forms by cutting out to erect to process.

9. the off-premises station of refrigerating plant according to claim 5, is characterized in that,

Described protuberance forms by cutting out to erect to process.

10. the off-premises station of refrigerating plant according to claim 6, is characterized in that,

Described protuberance forms by cutting out to erect to process.

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