CN1508488A

CN1508488A - Condensed-water plate structure of refrigeration device

Info

Publication number: CN1508488A
Application number: CNA2003101215159A
Authority: CN
Inventors: 田村健一; 弘; 近藤康弘
Original assignee: Daikin Industries Ltd
Current assignee: Daikin Industries Ltd
Priority date: 2002-12-19
Filing date: 2003-12-19
Publication date: 2004-06-30
Anticipated expiration: 2023-12-19
Also published as: JP2004198041A; JP4196666B2; CN1227488C

Abstract

Provided is a drain pan structure of a refrigerating plant capable of easily performing a maintenance work in a machine room and easily carrying out an appliance in the machine room outside. A main drain pan 5 which is also used for a beam is disposed on a middle stage of a frame structural body 3 with a machine room 1 formed in a lower portion thereof and a heat exchanger room 2 formed in an upper portion thereof. A space between the machine room 1 and the heat exchanger room 2 is not partitioned by the plate-like main drain pan 5 like in a known system, and the maintenance work in the machine room 1 can be easily performed. Further, the main drain pan 5 can be detached from the frame structural body 3, and a compressor 11 in the frame structural body 3 is easily carried outside a refrigerating plant.

Description

The structure of the condense water disk of refrigerating plant

Technical field

The present invention relates to the structure of the condense water disk of refrigerating plant.

Background technology

In the past, the structure of the condense water disk of refrigerating plant as shown in Figure 3, form regenerator volume 101 on top, and form the stage casing of the framing component 105 of Machine Room 102 in the bottom, fixing four crossbeams 107,107 of roughly rectangular framework shape ... fixing roughly rectangular on these crossbeams 107 again, each bar limit of tabular condense water disk 109 is (referring to real fair 6-38253 communique, Fig. 1).

A crossbeam 107 in above-mentioned four crossbeams 107 is made channel form, and the marginal portion on a limit of above-mentioned roughly rectangular condense water disk 109 is to the inside bend of the crossbeam 107 of above-mentioned channel form.By above-mentioned tabular condense water disk 109, accept to be arranged in the dew of dewfall on the heat exchanger in the above-mentioned regenerator volume 101 and enter rainwater in the above-mentioned regenerator volume 101 or the like.The water that above-mentioned condense water disk 109 is accepted, be directed to the inboard of the crossbeam 107 of above-mentioned channel form from the marginal portion of above-mentioned bending, the water that is directed on this root crossbeam 107, by being connected the drainpipe 110 of these root crossbeam 107 bottoms, the outside that is discharged to refrigerating plant is gone again.

; because in the structure of the condense water disk of above-mentioned refrigerating plant in the past; be fixed on the condense water disk 109 of the rectangular plate shape on the above-mentioned crossbeam 107; be arranged on the position of 101 tops, above-mentioned Machine Room, so exist the very difficult problem of maintenance activity of compressor of being arranged in the above-mentioned Machine Room 101 etc.

In addition, when for the compressor in the above-mentioned Machine Room 101 etc. is carried out large repairs, be when refrigerating plant disassemble it, above-mentioned crossbeam 107 has just become obstacle, exists the problem that is difficult to above-mentioned compressor etc. is transported to the refrigerating plant outside.

Summary of the invention

Therefore, the purpose of this invention is to provide a kind of structure of condense water disk of refrigerating plant, this structure is convenient to the maintenance activity in the Machine Room, and, also be easy to the machine in the Machine Room is transported to the outside.

For achieving the above object, the feature of the structure of the condense water disk of the refrigerating plant in the claim 1 of the present invention is that it is made of following each several part:

Framing component, it roughly is rectangular shape, has four pillars of four jiaos that are positioned at this cuboid, forms the Machine Room in its underpart, and forms regenerator volume at an upper portion thereof;

The main condenser water pond, it is erected between the adjacent above-mentioned pillar of said frame member on the stage casing of said frame member, be used to accept the water that drips down from above-mentioned regenerator volume, and the double as crossbeam uses; And

Be arranged in the auxiliary condense water disk of the below, coupling part of above-mentioned pillar and main condenser water pond.

The structure of the condense water disk of the refrigerating plant of putting down in writing according to claim 1, because above-mentioned main condenser water pond is in the stage casing of said frame member, frame is between the adjacent above-mentioned pillar of this framing component, so above-mentioned Machine Room and regenerator volume are not just separated by such in the past tabular condense water disk.Therefore, be arranged in Refrigerating Machinery in the above-mentioned Machine Room etc., and be arranged in heat exchanger in the above-mentioned regenerator volume etc. and since arranged than in the past more near, so adopt the refrigerating plant of this condense water disk structure just to become compact more.

In addition, above the Machine Room that forms in the bottom of said frame member, because blocking of the tabular condense water disk as in the past not, so can be easily keep in repair to being arranged in Refrigerating Machinery in the above-mentioned Machine Room or the like.

In addition,, compare with crossbeam, can reduce the number of spare parts of refrigerating plant and the operation of assembling, thereby can reduce the manufacturing cost of refrigerating plant with such in the past condense water disk that is provided with respectively because above-mentioned main condenser water pond double as crossbeam uses.

The structure of the condense water disk of the refrigerating plant of being put down in writing in the claim 2 is on the basis of the structure of the condense water disk of the refrigerating plant that claim 1 is put down in writing, and also has following feature,

Above-mentioned main condenser water pond can be installed on the above-mentioned pillar, perhaps disassembles from pillar.

Structure according to the condense water disk of the refrigerating plant of claim 2, because above-mentioned main condenser water pond can be installed on the above-mentioned pillar, perhaps disassemble from pillar, so, as long as above-mentioned main condenser water pond is disassembled from pillar, it is next that just the high machine in position that can be arranged the above-mentioned main condenser water pond of aspect ratio easily is transported to said frame member outside, and the inside that perhaps is transported to the said frame member is gone.

The structure of the condense water disk of the refrigerating plant of being put down in writing in the claim 3 is on the basis of the structure of the condense water disk of the refrigerating plant that claim 1 is put down in writing, and also has following feature,

The pillar of said frame member has the chevron section;

Above-mentioned main condenser water pond has the channel shaped section;

The two end portions of the length direction of above-mentioned main condenser water pond side is fixed by bolts on the outer surface of above-mentioned pillar.

According to the structure of the condense water disk of the refrigerating plant of claim 3,, just can disassemble this main condenser water pond from pillar easily as long as the bolt that the two side portions with above-mentioned main condenser water pond is fixed on the pillar outside unclamps.Therefore, just can easily machine be moved into or take out of the Machine Room of said frame member.In addition, after moving into or take out of above-mentioned machine, can be fixed on above-mentioned main condenser water pond on the pillar easily.

The structure of the condense water disk of the refrigerating plant of being put down in writing in the claim 4 is on the basis of the structure of the condense water disk of the refrigerating plant that claim 1 is put down in writing, and also has following feature,

Above-mentioned regenerator volume has the lower end of the approaching above-mentioned vertical heat exchanger of arranging abreast of vertical heat exchanger and its lower end between two adjacent pillars of said frame member, and the inclination heat exchanger that is arranged to tilt;

The position of above-mentioned main condenser water pond is below above-mentioned vertical heat exchanger lower end and inclination heat exchanger lower end.

Structure according to the condense water disk of the refrigerating plant of claim 4, because above-mentioned main condenser water pond is positioned at the lower end of above-mentioned vertical heat exchanger and the below of inclination heat exchanger lower end, so can collect expeditiously attached to the lower end of above-mentioned vertical heat exchanger and the water on the inclination heat exchanger.

Description of drawings

Figure 1A is the side view of refrigerating plant that adopts the condense water disk structure of the embodiment of the invention, and Figure 1B is the front view of the refrigerating plant among Figure 1A;

Fig. 2 is the stereogram of main condenser water pond;

Fig. 3 is the figure of the condense water disk structure of refrigerating plant in the past.

The specific embodiment

Below, describe the present invention in detail according to the embodiment in the accompanying drawing.

Figure 1A is the side view of refrigerating plant that adopts the condense water disk structure of embodiments of the invention, and Figure 1B is the front view of the refrigerating plant among Figure 1A.This refrigerating plant has framing component 3, forms Machine Room 1 in the bottom of framing component, and forms regenerator volume 2 at an upper portion thereof.This framing component 3 be shaped as cuboid, on the position of four jiaos of this cuboids, have section to be four

pillars

31,31 of chevron ... and the

crossbeam

32,32 that the lower end of these four pillars 31 is connected to each other ...In addition, in the stage casing of the front and back of this framing component 3, has the crossbeam (not shown) that extends to width.

In the Machine Room 1 of said frame member 3 bottoms, arranged compressor 11.The height of this compressor 11 reaches and the roughly the same position, lower end that is arranged in the main condenser water pond 5 (will describe below) in said frame member 3 stage casings.In addition, in this Machine Room 1, expander, water-to-water heat exchanger, four-way change-over valve equal controller (not shown) have also been arranged.

In above-mentioned regenerator volume 2, arranged by roughly being the air heat exchanger that tabular vertical heat exchanger 21 and inclination heat exchanger 22 constitute.Above-mentioned vertical heat exchanger 21 is arranged between two

adjacent pillars

31,31 of said frame member 3 sides, and is roughly parallel with this pillar 31.These two vertical heat exchangers 21 are arranged on two sides of said frame member 3.Between two

vertical heat exchangers

21,21 that are arranged on these two sides, be provided with above-mentioned

inclination heat exchanger

22,22 obliquely.This two

inclination heat exchangers

22,22 upper end separately is near each other, and lower end separately is approaching with the lower end of above-mentioned two

vertical heat exchangers

21,21 respectively.Like this, 21,21 and two

inclination heat exchangers

22,22 of above-mentioned two vertical heat exchangers are just shown in the front view of Figure 1B, roughly be the shape of the word of falling M.Above above-mentioned two

inclination heat exchangers

22,22, arranged fan 8 respectively, produce air-flow with this two desk fan 8 by above-mentioned vertical heat exchanger 21 and inclination heat exchanger 22.

The main condenser water pond 5 shown in the stereogram of Fig. 2 has been arranged in stage casing in said frame member 3 sides.This main condenser water pond 5, frame are positioned at the below of above-mentioned vertical heat exchanger 21 between two

adjacent pillars

31,31 of said frame member 3 sides, the double as crossbeam uses.The length of this main condenser water pond 5 roughly length with above-mentioned vertical heat exchanger 21 lower ends is identical, and has the width of the below of the below of traversing above-mentioned vertical heat exchanger 21 lower ends and above-mentioned inclination heat exchanger 22 lower ends.This main condenser water pond 5 has the shape of groove, and the two end portions 53,53 of its side length direction is fixed by bolts on the outer surface of above-mentioned two pillars 31,31.In addition, on the top of this main condenser water pond 5, the needle beam 52,52 of the groove that strides across this main condenser water pond 5 has been installed, the lower end of above-mentioned vertical heat exchanger 21 is fixed by bolts on these two needle beams 52,52.

Below above-mentioned main condenser water pond 5 length direction two ends, arranged auxiliary condense water disk 6,6.Should be fixed on the inboard that above-mentioned section is the pillar 31 of chevron by auxiliary condense water disk 6.Last surface bearing that should auxiliary condense water disk 6 bottom surface of above-mentioned main condenser water pond 5, and supporting the front and back that is arranged in framing component 3 the crossbeam (not shown) below.In addition, have opening on above-mentioned auxiliary condense water disk 6, this opening is accepted to flow through the water that comes from above-mentioned main condenser water pond 5, and accepts the water that drips down from the water tank 24 of above-mentioned

air heat exchanger

21,22 ends.In addition, drainpipe 9 is connected on the bottom surface of above-mentioned auxiliary condense water disk 6.This root drainpipe 9 extends in the inboard of above-mentioned pillar 31, and in the bottom of this root pillar 31 opening laterally, from this opening externally drained to refrigerating plant.

Refrigerant in this refrigerating plant circulates in the freeze cycle circle that is made of following each parts: above-mentioned compressor 11; Above-mentioned

air heat exchanger

21,22; The expander of not representing among the figure; The water-to-water heat exchanger of not representing among the figure.And, also water is imported in the above-mentioned water-to-water heat exchanger, make above-mentioned refrigerant and water carry out heat exchange.In addition, between above-mentioned compressor 11 and

air heat exchanger

21,22, between above-mentioned water-to-water heat exchanger and compressor 11, connect with the pipeline of not representing among the figure, and in this root pipeline, be provided with four-way change-over valve.By operating this four-way change-over valve, can change the loop direction of refrigerant in the above-mentioned freeze cycle circle, the water that imports above-mentioned water-to-water heat exchanger is carried out any process in the heating and cooling.

When the refrigerating plant of the condense water disk that adopts said structure was worked, above-mentioned compressor 11 is compression refrigerant just, is compressed the refrigerant that becomes high temperature, high pressure, is directed in the above-mentioned air heat exchanger 21,22.The

fan

8,8 of drive arrangement above above-mentioned

air heat exchanger

21,22, air just as shown by arrow A, by vertical heat exchanger 21 of above-mentioned air heat exchanger, and as shown by arrow B, by the inclination heat exchanger 22 of above-mentioned air heat exchanger.The refrigerant and the air that import in the above-mentioned

air heat exchanger

21,22 carry out heat exchange, so the temperature of refrigerant just descends.Refrigerant after temperature descends do not reduce pressure in the expander of expression in the drawings, just become the refrigerant of low temperature, low pressure.The refrigerant of this low temperature, low pressure does not carry out heat exchange with water in the water-to-water heat exchanger of expression in the drawings, just makes above-mentioned water cooling.

When switching above-mentioned four-way change-over valve, just import in the above-mentioned water-to-water heat exchanger by the high temperature of above-mentioned compressor 11 compressions, the refrigerant of high pressure.The refrigerant of above-mentioned high temperature, high pressure carries out heat exchange with water in above-mentioned water-to-water heat exchanger, with above-mentioned water heating.In this water-to-water heat exchanger, the refrigerant that has carried out having reduced after the heat exchange temperature with water reduces pressure in above-mentioned expander, becomes the refrigerant of low temperature, low pressure.The refrigerant of this low temperature, low pressure carries out heat exchange with air and after heating up, gets back in the above-mentioned compressor 11 in above-mentioned

air heat exchanger

21,22.

When the water in the above-mentioned water-to-water heat exchanger is added heat run, under most of occasions, by the frost that airborne hydrogenesis becomes, on the outer surface of meeting attached to the

air heat exchanger

21,22 that imports above-mentioned cryogenic coolant.In order to remove this frost, the duration of runs that every process is certain, running defrost.That is, switch above-mentioned four-way change-over valve, the hyperthermia induced cryogen is imported in the above-mentioned

air heat exchanger

21,22, melt and remove attached to the frost on this air heat exchanger 21,22.At this moment, just melt, generate many water attached to the frost on the above-mentioned air heat exchanger 21,22.In addition, when rainwater was sneaked in the above-mentioned refrigerating plant, rainwater also can flow down along

air heat exchanger

21,22.

Melt the water that the back become and sneak into rainwater in the refrigerating plant attached to the frost on the above-mentioned

air heat exchanger

21,22, flow downward, drip down from the lower end of above-mentioned vertical heat exchanger 21 and inclination heat exchanger 22 along above-mentioned air heat exchanger 21,22.This water that drips down is accepted by above-mentioned main condenser water pond 5.The water that this main condenser water pond 5 is accepted left, right flows, after flowing down from the left and right two ends of main condenser water pond 5, by auxiliary

condense water disk

6,6 acceptance.In addition, from the water that the water tank 24 that is positioned at above-mentioned

air heat exchanger

21,22 ends drips down, then directly accept by above-mentioned auxiliary condense water disk 6.The water that should assist condense water disk 6 to be accepted,, is discharged outside the refrigerating plant near the end of above-mentioned drainpipe 9 opening above-mentioned pillar 31 lower ends to dirty by above-mentioned drainpipe 9.

In the process that the compressor 11 of above-mentioned refrigerating plant overhauls, must from refrigerating plant, carry this compressor 11 to come out.At this moment, will disassemble the

pillar

31,31 of above-mentioned main condenser water pond 5 from the said frame member.Promptly, the Bolt dismantling that will be fixed on two ends 53 with above-mentioned main condenser water pond side on the pillar 31 gets off, and, above-mentioned main condenser water pond 5 is disassembled from

pillar

31,31 the needle beam 52,52 on above-mentioned main condenser water pond 5 tops and after vertically the Bolt dismantling that is fixed up of the lower end of heat exchanger 21 gets off.Like this, in the side of said frame member 3, just obtained highly to reach the opening of above-mentioned vertical heat exchanger 21 lower ends.Therefore, no matter above-mentioned compressor 11 is under main condenser water pond 5 is installed in situation on the above-mentioned pillar 31, whether reach the height with roughly the same position, above-mentioned main condenser water pond 5 lower ends, can both from the Machine Room 1 of said frame member 3, carry it to come out easily.

In addition, since 5 of above-mentioned main condenser water ponds between the

adjacent pillar

31,31 of the framing component 3 of above-mentioned refrigerating plant, so between Machine Room 1 and regenerator volume 3, do not sheltered from by the tabular condense water disk of such in the past rectangle.Therefore, be arranged in the Refrigerating Machinery in the above-mentioned Machine Room 1 and be arranged in

air heat exchanger

21,22 in the above-mentioned regenerator volume 2, just can arrange more approachingly, can make that refrigerating plant is compacter than in the past.

In addition, because the framing component 3 of above-mentioned refrigerating plant is between above-mentioned Machine Room 1 and regenerator volume 3, the tabular condense water disk that does not have such in the past rectangle is so above above-mentioned Machine Room 1, can form the bigger space of the

inclination heat exchanger

22,22 that can hold above-mentioned regenerator volume 3.Therefore, made things convenient for maintenance activity in the above-mentioned Machine Room 1.

In addition,, compare, can reduce the quantity of part, reduce the quantity of assembling procedure, reduce the manufacturing cost of refrigerating plant with the structure of the condense water disk of the refrigerating plant in the past that condense water disk and crossbeam are set respectively because above-mentioned main condenser water pond 5 double as crossbeams use.

In the above-described embodiments, be arranged in two sides of said frame member 3 and the main condenser water pond 5 that the double as crossbeam is used, wherein have at least one to be demountable.Perhaps, also can be that any one the main condenser water pond 5 that is arranged in two sides all is demountable.In addition, being arranged on the crossbeam of front and back, also can be to dismantle.

In addition, in the above-described embodiments, above-mentioned refrigerating plant can heat the water that imports in the above-mentioned water-to-water heat exchanger, also can cool off it, but this refrigerating plant also can be only carries out a kind of in the heating and cooling to above-mentioned water.

As mentioned above, structure according to the condense water disk of refrigerating plant of the present invention in the claim 1, because it has following each several part: framing component, it roughly is cuboid, have four pillars of four jiaos that are positioned at this cuboid, form the Machine Room in its underpart, and form regenerator volume at an upper portion thereof; The main condenser water pond, it is erected between the adjacent above-mentioned pillar of said frame member on the stage casing of said frame member, be used to accept the condensed water that drips down from above-mentioned regenerator volume, and the double as crossbeam uses; And the auxiliary condense water disk that is arranged in the below, coupling part of above-mentioned pillar and main condenser water pond.So the structure that has the tabular condense water disk that Machine Room and regenerator volume are separated with in the past the sort of is compared, and can arrange Refrigerating Machinery in the Machine Room and the heat exchanger in the regenerator volume more approachingly, so refrigerating plant just can be compact more.In addition, because the blocking of the not such in the past tabular condense water disk in the top of above-mentioned Machine Room, so just can carry out the maintenance of the Refrigerating Machinery and so in the above-mentioned Machine Room easily.In addition, because the use of above-mentioned condense water disk double as crossbeam, so, compare with crossbeam with forming condense water disk respectively, can reduce the quantity of part, reduce the quantity of assembling procedure, can reduce the manufacturing cost of refrigerating plant.

Structure according to the condense water disk of refrigerating plant in the claim 2, because above-mentioned main condenser water pond can be installed on the above-mentioned pillar, or disassemble from it, so by means of from pillar, above-mentioned condense water disk being disassembled, just can be easily the also high machine of position of the above-mentioned main condenser water pond of aspect ratio, the outside that is transported to the said frame member is gone, and in addition, the inside that also can be transported to the said frame member is easily gone.

Structure according to the condense water disk of refrigerating plant in the claim 3, by means of tightening or unclamping the bolt that the two side portions of above-mentioned main condenser water pond is fixed on pillar outside, just can be installed in the main condenser water pond on the pillar easily, or disassemble from it, like this, just can carry machine into or carry out the Machine Room of said frame member easily.

According to the structure of the condense water disk of refrigerating plant in the claim 4, because above-mentioned main condenser water pond is positioned at the below of the lower end of the lower end of vertical heat exchanger and inclination heat exchanger, so can collect effectively attached to the water on above-mentioned vertical heat exchanger and the inclination heat exchanger.

Claims

1. the structure of the condense water disk of a refrigerating plant is characterized in that, it is made of following each several part:

Framing component (3), it roughly is cuboid, has four pillars (31) of four jiaos that are positioned at this cuboid, forms Machine Room (1) in its underpart, and forms regenerator volume (2) at an upper portion thereof;

Main condenser water pond (5), it is erected between the adjacent above-mentioned pillar (31) of said frame member on the stage casing of said frame member (3), is used for the condensed water that acceptance drips down from above-mentioned regenerator volume (2), and the double as crossbeam uses; And

Be arranged in the auxiliary condense water disk (6) of the below, coupling part of above-mentioned pillar (31) and main condenser water pond (5).

2. the structure of the condense water disk of refrigerating plant as claimed in claim 1 is characterized in that,

Above-mentioned main condenser water pond (5) can be installed on the above-mentioned pillar (31), or disassembles from it.

3. the structure of the condense water disk of refrigerating plant as claimed in claim 1 is characterized in that,

The pillar of said frame member (31) has the chevron section;

Above-mentioned main condenser water pond (5) has the channel shaped section;

Two end portions (53) on above-mentioned main condenser water pond (5) the side length direction is fixed by bolts on the outer surface of above-mentioned pillar (31).

4. the structure of the condense water disk of refrigerating plant as claimed in claim 1 is characterized in that,

Above-mentioned regenerator volume (2) has the lower end of vertical heat exchanger (21) of being arranged in parallel and lower end and above-mentioned vertical heat exchanger (21) between two of the said frame member adjacent pillars (31,31) approaching, and the inclination heat exchanger of arranging obliquely (22);

The position of above-mentioned main condenser water pond (5) is in the below of above-mentioned vertical heat exchanger (21) lower end and inclination heat exchanger (22) lower end.