CN2733281Y - Condensing unit and refrigerator employing the same - Google Patents

Abstract

The utility model provides a condensing unit, comprising a condenser, a compressor, a motor blower, a coat matching pipe of assembly cover and a connecting part. Consequently, the heat generated by the condenser can discharged without any detention. Thus, the temperature rise of the condenser can be restrained and the electric power consumption is reduced. Even in case the refrigerant is leaked from the matching pipe, the leaked refrigerant can be diluted by the air below the combustible concentration and is discharged outside the machine room and the safety can be ensured.

Description

Condensing unit and the refrigerator that uses this condensing unit

Technical field

The utility model relates to a kind of refrigerator that uses the condensing unit of combustible refrigerant and use this condensing unit.

Background technology

In recent years, in order to suppress global warming, refrigerator is advancing reduction power consumption and is changing to hydrocarbon coolant.Hydrocarbon coolant is minimum to the influence of global warming, but has combustibility, thus people also in research just in case the countermeasure of cold-producing medium when leaking.

On the other hand, condensing unit in freeze cycle, by compressor with condenser will will be on one side high-temperature high-pressure state refrigerant loses heat, Yi Bian make its liquefaction.Such condensing unit generally by compressor, condenser, with its functional pipe arrangement that is connected and be used to promote the electric blowing machine of condenser heat radiation to form.Especially professional condensing unit with refrigerator, the installation of refrigerator for convenience and change condensing unit when conveniently breaking down, this condensing unit can unload from refrigerator main body.

The refrigerator that condensing unit is installed in the past, it is open to open flat 7-318224 communique by for example spy of Japan.This refrigerator by the next door cover the Machine Room with condensing unit the four directions and above, the bottom of front, Machine Room is provided with air entry, top is provided with exhaust outlet from the rearward slightly position of air entry.This is in order to prevent the short circuit on the wind path and to reduce power consumption.

Below, introduce above-mentioned condensing unit in the past with reference to accompanying drawing.Fig. 5 is the front view of refrigerator in the past.Fig. 6 is the longitudinal section of the Machine Room of this refrigerator.Fig. 7 is the cross-sectional view of this refrigerator mechanical chamber.

This refrigerator has main body 1 and is arranged on the Machine Room 2 on main body 1 top.In Machine Room 2, be disposed with condenser 3, fan 4, compressor 5 from the front.About biside plate 6 biside plate of main body 1 is prolonged setting upward, backboard 7 prolongs setting upward with the backboard of main body 1.Above top board 8 covers.

2 the roughly first half in the Machine Room, be provided with horizontally be positioned at the upper part between wallboard 9, form intake guide 10 in the bottom of a wallboard 9, form exhaust manifolds 11 on top.Condenser 3 is disposed at the rearward end of intake guide 10, and its left and right sides is provided with the separated partition wall 12 in intake guide 10 inner front and back.Also have, the front of intake guide 10 is provided with air entry 13, and the front of exhaust manifolds 11 is provided with exhaust outlet 14, and exhaust outlet 14 is configured in from the rearward slightly position of air entry 13.

With regard to the refrigerator of said structure, its action is described below.By the rotation of fan 4, the air that enters from air entry 13 is directed to condenser 3 by partition wall 12 through behind the intake guide 10.Air by blowing to compressor 5 around the fan 4, passes through the exhaust manifolds 11 above the wallboard 9 through behind the condenser 3 again, discharges from exhaust outlet 14.

But in the wind path structure of above-mentioned Machine Room 2, condenser 3 is covered by side plate 6, backboard 7, top board 8, so the heat delay, and condenser 3 temperature rise, so power consumption increases.Even be detained for getting rid of heat, the temperature that suppresses condenser 3 rises, and increases the air quantity of fan 4, its result consumption that also can increase electric power.

Also have, in this wind path structure, the air the Machine Room in is from exhaust outlet 14 discharges of the front upper that is located at Machine Room 2.Therefore, use combustible refrigerant, and this cold-producing medium is in the Machine Room 2 when leaking, combustible refrigerant was discharged to main body 1 top rapidly with the air while in the Machine Room 2.Such high concentration combustible refrigerant arrives ignition source, when for example being installed in the fluorescent lamp etc. on roof, and the blast of just might catching fire.

The utility model content

Condensing unit of the present utility model has the device cover on the both sides and the top of condenser, electric blowing machine, pipe arrangement, covering tubing connection portion at least.Like this, even do not increase the air quantity of electric blowing machine, also can be by the running of electric blowing machine, the heat of condenser is not discharged to outside the device cover with being detained.Therefore, the temperature that can suppress condenser rises, and reduces power consumption.

Description of drawings

Fig. 1 is the front view of the refrigerator of embodiment of the present utility model.

Fig. 2 is the cross-sectional view of the Machine Room of refrigerator shown in Figure 1.

Fig. 3 is the longitudinal section of Machine Room shown in Figure 2.

Fig. 4 is the front view of Machine Room shown in Figure 2.

Fig. 5 is the front view of refrigerator in the past.

Fig. 6 is the cross-sectional view of the Machine Room of refrigerator in the past.

Fig. 7 is the cross-sectional view of Machine Room shown in Figure 6.

The specific embodiment

Below, with reference to the description of drawings specific embodiment of the present utility model.And the utility model not only is defined in this embodiment.Fig. 1 is the front view of the refrigerator of embodiment of the present utility model.Fig. 2 is the cross-sectional view of the Machine Room of this refrigerator.Fig. 3 is the longitudinal section of this Machine Room.Fig. 4 is the front view of this Machine Room.

Machine Room 21 is arranged on the top of the main body 20 that forms refrigerating chamber 53, by parting next door (calling wall in the following text) 22, back partition wall (calling wall in the following text) 23 on the left side, parting next door (calling wall in the following text) 24, preceding grid 25 and top partition wall (calling wall in the following text) 26 on the right side and form.The cross section of wall 22,24 is the L font.Wall the 23, the 26th, dull and stereotyped, wall 26 only covers the top rear of Machine Room 21.Preceding grid 25 covers the front portion of Machine Rooms 21.

The bottom of Machine Room 21 is provided with condensing unit 27, can unload from main body 20.Device pedestal 28 is pedestals that each parts of condensing unit 27 are set.On device pedestal 28, condenser 29, electric blowing machine (calling fan in the following text) 30, compressor 31 are being set in order, with the air supply path almost parallel of fan 30, to form the high-pressure side device of freeze cycle.That is, condenser 29 is arranged on the upstream side of fan air-supply direction, and compressor 31 is arranged on the downstream.Condenser 29 is connected by pressure reducer 51 and refrigerating chamber 53 interior heat exchangers 52.

Also have, condenser 29 is connected with connecting portion 33 by pipe arrangement 32 with compressor 31, combustible refrigerants (calling cold-producing medium in the following text) 34 such as the iso-butane that for example circulates in condenser 29, compressor 31, the pipe arrangement 32.Cold-producing medium 34 turns back to compressor 31 after temperature on the heat exchanger 52 rises.Form freeze cycle like this.And the both sides of condenser 29, fan 30, pipe arrangement 32 and connecting portion 33 and top with not covering with the device cover 35 of the size of condenser 29 devices spaced apart as far as possible at least.

The cross section that wall 23 and wall 26 are used as the wind path direction of the fan 30 in the modifier cover 35 is the roughly shield 36A of L font.Wall 23 is arranged on the downstream side of the air supply direction of the fan 30 that leaves compressor 31 a little, and is big at the equal ratio device cover of left and right directions, above-below direction 35.That is, shield 36A be arranged on by wind path and compressor 31 between, change the air supply direction of fan 30.Also have, wall 26 has the 50mm left and right sides overlapping on the wind path direction with the top of device cover 35, and the top of condenser 29 is only covered by device cover 35 at least.According to such structure, peristome 50 is arranged above the Machine Room 21, its major part is opened to ambient atmos, and the part of the covering condenser 29 of device cover 35 is opened to ambient atmos at least.Also have, wall 26 and device cover 35 tops are provided with the gap about 50mm, can be used as wind path

Also have, the wall 22,24 that the cross section is the L font is used as the shield 36B of device cover 35 both sides, and the gap about 100mm is arranged apart from the two sides of device cover 35.Form wind path respectively between wall 22,24 and the device cover 35.

Before grid 25 for when main body 20 fronts are seen, can not directly see the size of condensing unit 27, and be connected that the front of preceding grid 25 also is provided with the slit, is used as the air entry 37 of Machine Room 21 with wall 22,24.

Device cover 35 usefulness for example high material of thermal conductivity such as iron form, guide portion 38 also from top covering air supply direction upstream side enter the mouth about 1/4.

Also have, the outside (for example left side) of device cover 35 is being provided with electrical installation 40, has the control substrate (calling substrate in the following text) 39 that can control fan 30 and compressor 31.Substrate 39 is accommodated in and forms electrical installation 40 in the container 41, the opening portion of device cover 35 sealing electrical installations 40.Container 41 is provided with breakthrough part 42, by breakthrough part 42 usefulness leads 43 substrate 39 and fan 30, compressor 31 is electrically connected.Also have the container 41 of electrical installation 40 and device cover 35 thermal on composition surface 44.The encapsulant sealing that composition surface 44 and breakthrough part 42 usefulness aerations are low.

Introduce action, the effect of the refrigerator of said structure below.At first, according to the indication of substrate 39, compressor 31 entrys into service, also entry into service of fan 30 simultaneously, the top of the air entry 37 of air the past grid 25 and the wind path upstream side of device cover 35 is inhaled in the device cover 35.Air carries out heat exchange through condenser 29, and after temperature raise, order was collided with wall 23 through device cover 35 then by the periphery separately of fan 30, compressor 29.The space U font of air between the outside of wall 22,24,26 and device cover 35 turned and passed through then, becomes the peristome 50 of ascending air above Machine Room 21 and slowly discharges.

Also have, just in case cold-producing medium 34 is during from pipe arrangement 32 leakages, the cold-producing medium 34 of leakage is through the running of fan 30, diluted by air during together by the exhaust passage with air.And be reduced to below the flammable concentration, the peristome 50 on 21 tops is slowly discharged from the Machine Room.When if cold-producing medium leaks near the inlet of wind path (air supply direction) upstream of device cover 35, the cold-producing medium 34 of leakage is just forced to import wind path (air supply direction) upstream side of condenser 29 by device cover 35 guide portion 38.Then with air together by the exhaust passage, diluted by air and discharge.

Like this, the cold-producing medium 34 of the leakage of carrying in the hot-fluid of Machine Room 21 is not to concentrate on the local area, but is diffused into the space of 21 tops, Machine Room.Therefore, ligthing paraphernalias such as fluorescent lamp are arranged, may become the burning things which may cause a fire disaster of cold-producing medium 34 even worry to be provided with near ceiling main body 20 local etc., can breaking out of fire yet, can guarantee security.

This point is particularly important as the professional time spent with refrigerator.This is because professional illumination such as kitchen and the cooking device etc. of being arranged on refrigerator might become in the more environment of the factor of combustible refrigerant burning things which may cause a fire disaster.Professional with the big height height of the big multicapacity of refrigerator, be easy to cause the approaching condition of ligthing paraphernalias such as fluorescent lamp with installing on the ceiling.Therefore, when existing refrigerator was directionally forced heat extraction from the front of the Machine Room that is located at its top, heat extraction stream arrived the ligthing paraphernalia that may become burning things which may cause a fire disaster simultaneously partly with cold-producing medium 34, in the worst case may breaking out of fire.To this, have the refrigerator of the condensing unit 27 of present embodiment, even near the place ahead ceiling the main body 20 ligthing paraphernalia is arranged, cold-producing medium 34 can not discharge to the part yet.Cold-producing medium 34 diffusion is discharged into the upper space of main body 20, then, because the proportion of cold-producing medium 34 is heavier than air, cold-producing medium 34 dispersion that slowly descends in the whole space that refrigerator is set.Therefore, environment can not satisfy the concentration of catching fire, and can keep security.

Also have, the heat that the substrate 39 in the electrical installation 40 produces carries out effective heat exchange via the device cover 35 that the high material of heat conductivity forms with air, rises with this temperature that suppresses substrate 39.Even just in case cold-producing medium 34 covers 35 internal leakages at device, and through near the exhausts electrical installation 40, encapsulant 45 can prevent that also cold-producing medium 34 from entering in the electrical installation 40.Therefore can prevent that substrate 39 from becoming burning things which may cause a fire disaster and catch fire, explode.

As mentioned above, in the present embodiment, to the both sides of major general's condenser 29, fan 30, pipe arrangement 32 and connecting portion 33 and top with do not cover as far as possible with the device cover 35 of the size of condenser 29 devices spaced apart.The heat that such structure can make condenser 29 produce has no the ground of delay row outside device cover 35.That is, be diffused into the upper space of Machine Room 21 from the heat extraction stream of condensing unit 27.Therefore the temperature that the air quantity that does not need to increase fan 30 can suppress condenser 29 rises, and reduces power consumption.

Also have, device cover 35 covers pipe arrangement 32 and connecting portions 33, so can prevent to install the time and more the changing device mistiming contacts pipe arrangement 32 and connecting portion 33, makes cold-producing medium 34 leakages.When particularly using combustible refrigerant, can improve security as cold-producing medium 34.

Also have, even just in case cold-producing medium 34 is installing cover 35 internal leakages, the cold-producing medium 34 of leakage is discharged to outside the Machine Room 21 after can contacting with device cover 35 and spreading.Therefore, can prevent that the cold-producing medium 34 of high concentration is discharged to outside the Machine Room 21 quickly, improve security.

Also have, the back partition wall 23 of main body 20 is being set as shield 36A.Thus, just in case cold-producing medium 34 is when 35 internal leakages of device cover, the cold-producing medium of leakage can with 35 collisions of device cover after, under the ventilation of fan 30, contact the back with wall 23 and spreads, until discharge.Therefore can further improve security.

Also have, also be provided with cross section in the both sides of device cover 35 and roughly be parting next door 22 on the left side and parting next door 24 on the right side of L font as shield 36B, and and device cover 35 between form wind path.The temperature of the cold-producing medium 34 that leaks raises, and when spreading energetically with ascending air, after touching wall 23,26, row is spread behind 21 tops, Machine Room.On the other hand, the temperature of the cold-producing medium 34 of leakage reduces in the time of can not promoting to spread, and the heavier-than-air cold-producing medium 34 of proportion is touching wall 23,26 back sinkings, so almost can not be discharged to 21 tops, Machine Room.Here, owing to be provided with wall 22,24, cold-producing medium 34 covers between 35 by wall 22,24 and device, once more short circuit and the wind path upstream portion of return mechanism cover 35.And and be discharged to 21 tops, Machine Room behind the air mixed diluting gradually, so can further improve security.

In addition, partition wall 26 is arranged to the part of shield 36A above.Thus, when for example there is wall at main body 20 back sides, can prevent that the leakage of refrigerant of running into wall 23 from can rise rapidly along wall, for example touch fluorescent lamp etc. and breaking out of fire, blast.Can further improve security like this.

Also have, wall 22,23,24,26 is used as shield 36A, the 36B that the cross section roughly is the L font, can reduce amount of parts, reduces cost.The device cover 35 of preferred condensing unit 27 and at least a portion of shield 36A, 36B are integrally formed by main body 20.Like this, but the part double as main body 20 of device cover 35 and shield 36A, 36B can reduce number of components and parts thus, helps to reduce cost.

Also have, by on the part of the covering condenser 29 of device cover 35 peristome 50 being set, and open to ambient atmos, condenser 29 heat radiations can suppress the temperature rising of condenser 29 easily.Can reduce power consumption like this.

Also have, top overlapping by with wall 26 and device cover 35 prolongs the exhaust channel of the cold-producing medium 34 of device cover 35 internal leakages.Owing to separating with the degree that can form wind path the space of exhaust channel is broadened, therefore exhaust rapidly is suppressed.Cold-producing medium 34 is further diluted before being discharged from, and concentration drops under the flammable concentration, and slowly discharges above whole device cover 35.Therefore, the cold-producing medium that is lower than flammable concentration is slowly discharged with the ascending air of the air that becomes high temperature by the heat exchange with condenser 29, can prevent that the cold-producing medium of flammable concentration from arriving burning things which may cause a fire disaster, guarantees security.

In addition, in the present embodiment, the distance between device cover 35 and wall 22, device cover 35 and the wall 24 equates.But, when being arranged on electrical installation 40 on the exhaust channel, consider the wind path resistance that causes thus, strengthen the wind path that is arranged on electrical installation 40 sides, be comparatively desirable preventing on this meaning of exhaust rapidly.

In addition, in the present embodiment, device cover 35 covers the both sides and the top of connecting portion 33, and the top of wall 26 and device cover 35 is overlapping, but is not limited in this.Pipe arrangement 32 and connecting portion 33 are positioned at from the Machine Room when 21 tops are down about 150mm, also can not adopt said structure, and pipe arrangement 32 and connecting portion 33 are opened to the outside of Machine Room 21.When this structure can make cold-producing medium 34 contingency leak from installing cover 35 unlapped pipe arrangements 32, directly cold-producing medium 34 is arranged to 21 tops, Machine Room.But the exhaust channel about from place that cold-producing medium 34 leaks to the 150mm on 21 tops, Machine Room, cold-producing medium 34 is diluted by air.Therefore, cold-producing medium 34 is lowered to outside the following discharge of the flammable concentration Machine Room 21, can guarantee security.And, owing to reduced the wind path resistance of fan 30, increased aeration, rise so can further suppress the temperature of condenser 29, reduce power consumption.

Also have, by guide portion 38 is set, even when cold-producing medium 34 leaks near the inlet of the wind path upstream of device cover 35, but the also wind path of directed section 38 guiding fans 30 of the cold-producing medium of leakage.Therefore, can prevent directly discharging outside Machine Room 21, further improve security.

Also have, by making device cover 35 with the high material of heat conductivity, the heat of condenser 29 can be arranged to ambient atmos through device cover 35 at an easy rate.Thus, the temperature that can further suppress condenser 29 rises, and reduces power consumption.In addition, the material of constituent apparatus cover 35 is preferably metal materials such as steel plate, and thermal conductivity factor is preferably more than the 10W/mK.

Also have, when the condensing unit 27 in the Machine Room 21 had electrical installation 40, the heat sink that the part of device cover 35 can be used as electrical installation 40 played a role.By this structure, the heat that substrate 39 produces in electrical installation 40 can be discharged to the outside through device cover 35.Therefore, the temperature that can suppress substrate 39 rises, and guarantees the security of substrate 39, increases the service life.

Also have, Machine Room 21 is grid 25 before wind path (air supply direction) upstream of condensing unit 27 has, so can't see condensing unit 27 from the outside of main body 20, has improved appearance design.

As mentioned above, in the condensing unit of use combustible refrigerant of the present utility model, by covering pipe arrangement portion by the device cover, the temperature that can suppress condenser rises, and reduces power consumption.Also have, even under the situation that the contingency combustible refrigerant leaks from pipe arrangement portion, also can guarantee security.This condensing unit also can be used on other equipment that utilize freeze cycle except refrigerator.

Claims (15)

1. condensing unit is to use the condensing unit of cold-producing medium, it is characterized in that: have

Electric blowing machine,

Be configured in the condenser of the air supply direction upstream of described electric blowing machine,

Be configured in the compressor in the air supply direction downstream of described electric blowing machine,

With linking part connect described condenser and described compressor pipe arrangement and

At least cover the device cover on the both sides and the top of described condenser, described electric blowing machine, described pipe arrangement, described linking part.

2. condensing unit according to claim 1 is characterized in that: described cold-producing medium is a combustible refrigerant.

3. condensing unit according to claim 1 is characterized in that: also have first shield, it is arranged on the air supply direction downstream of described compressor, and described compressor between folder be separated with wind path.

4. condensing unit according to claim 3 is characterized in that: the cross section of described first shield is the L font, and has sidewall and upper wall.

5. condensing unit according to claim 3 is characterized in that: also have second shield, it is arranged on the both sides of described device cover, and described device cover between folder be separated with wind path.

6. condensing unit according to claim 5 is characterized in that: the cross section of described second shield is the L font, and has sidewall and upper wall.

7. condensing unit according to claim 4, it is characterized in that: the described upper wall of described first shield and the top of described device cover are overlapping, the part of the described condenser of covering of described at least device cover is opened to ambient atmos, and described device cover folder is provided with every the described upper wall of described first shield and wind path.

8. condensing unit according to claim 1 is characterized in that: also have guide portion, it is arranged on the top of the air supply direction upstream side inlet of described device cover.

9. condensing unit according to claim 1 is characterized in that: described device cover is made with the material with the above thermal conductivity factor of 10W/mK.

10. condensing unit according to claim 1 is characterized in that: also have electrical installation, it has the control substrate of the described electric blowing machine of control, described compressor, with described device cover thermal.

11. a refrigerator is characterized in that: have

Condensing unit, has electric blowing machine, be configured in the condenser of the air supply direction upstream of described electric blowing machine, be configured in the compressor in the air supply direction downstream of described electric blowing machine, the pipe arrangement that connects described condenser and described compressor with linking part, at least cover the device cover on the both sides and the top of described condenser, described electric blowing machine, described pipe arrangement, described linking part

Be connected in described condenser, described compressor and use cold-producing medium to form the pressure reducer of freeze cycle,

Heat exchanger,

With described heat exchanger arrangement the refrigerating chamber of inside and

Described condensing unit is configured in inside, is formed at the top of described refrigerating chamber and is provided with the Machine Room of peristome on top.

12. refrigerator according to claim 11 is characterized in that: described Machine Room has preceding grid at the air supply direction upstream side of described condensing unit.

13. refrigerator according to claim 11 is characterized in that: described condensing unit also has first shield, and it is arranged on the air supply direction downstream of described compressor, and described compressor between folder be separated with wind path.

14. refrigerator according to claim 13 is characterized in that: described condensing unit also has second shield, and it is arranged on the both sides of described device cover, and described device cover between folder be separated with wind path.

15. refrigerator according to claim 11 is characterized in that: also have the main body that forms described refrigerating chamber,

In described device cover, first shield, second shield at least one, integrally formed with described main body.

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