CN206478908U - Reservoir and refrigerator - Google Patents

Abstract

A kind of reservoir and refrigerator, above-mentioned reservoir contain air inlet pipe, and the air inlet pipe has warp architecture in one end of the liquid storage cylinder, and the outlet of the air inlet pipe has angle of inclination towards the madial wall of liquid storage cylinder between the end face of the outlet and the madial wall.It is above-mentioned while be designed to preferably realize gas-liquid separation, reduce the noise and resistance produced during gas refrigerant flowing, and then reduce the noise and energy consumption of complete machine.Above-mentioned refrigerator includes the reservoir described in any of the above-described embodiment, and the reservoir relative level is inclined to set, while preferably can realizing gas-liquid separation, and power consumption is less and noise is low.

Description

Reservoir and refrigerator

Technical field

The utility model is related to technical field of refrigeration equipment, more particularly to a kind of reservoir and refrigerator.

Background technology

At present, the refrigeration system of refrigerator is generally by compressor, condensation radiator, throttle capillary tube, the big part of evaporator four Composition.Refrigerant becomes the gas of HTHP after being compressed through compressor, cryogenic high pressure is transformed into after condenser radiates Liquid, then by capillary-compensated be depressured after enter evaporator gasify absorb heat, eventually pass back to compressor and start the cycle over again.

It should be noted that with the change of external environment, the refrigerant into evaporator can exist and not be gasified totally Situation.When unvaporized refrigerant is sucked by compressor again, liquid hammer is easily caused, compressor service life is influenceed.Therefore, One reservoir is set generally at evaporator outlet.When refrigeration requirement is small, storing parts liquid refrigerant works as refrigeration requirement When big, the liquid refrigerant in reservoir gasifies to meet refrigeration requirement.However, in the prior art, going out installed in evaporator Reservoir at mouthful is to be vertically arranged, and energy consumption is higher when using, meanwhile, with larger complete machine noise.

Utility model content

Based on this, it is necessary to provide a kind of reservoir, while preferably can realizing gas-liquid separation, power consumption is less and noise It is low, and a kind of refrigerator for including above-mentioned reservoir.

A kind of reservoir, the reservoir is used to connect with evaporator, and the reservoir includes air inlet pipe and reservoir sheet Body, the reservoir body two ends, which are offered, has liquid storage cylinder, the air inlet in gas outlet and air inlet, the reservoir body Pipe is arranged in the liquid storage cylinder, and one end of the air inlet pipe is connected with the air inlet, the other end of the air inlet pipe and institute Liquid storage cylinder connection is stated, the air inlet pipe has warp architecture, the outlet direction storage of the air inlet pipe in one end of the liquid storage cylinder The madial wall of sap cavity, has angle of inclination between the end face of the outlet and the madial wall.

In one of the embodiments, the air inlet pipe includes extension body and buffering body；The extension body and institute Air inlet connection is stated, the extension body is overlapped with the axis of the liquid storage cylinder；The warp architecture is arranged at the separator tube Body, one end of the buffering body is connected with the described one end of extension body away from the air inlet, described to buffer the another of body One end is provided with outlet, and the direction of the end face of the outlet and the direction of the gas outlet are staggered.

In one of the embodiments, the angle of bend of the warp architecture is 130 °~140 °.

In one of the embodiments, the distance of the end face and the madial wall is 8mm~12mm.

In one of the embodiments, the angle between the end face and the madial wall is 10 °~15 °.

In one of the embodiments, the reservoir body includes cylindrical portion and is connected to described cylindrical portion one end Round platform portion, the gas outlet is opened in the round platform portion, and the diameter in the round platform portion is from the close cylindrical portion to away from described The direction of cylindrical portion is gradually reduced, the junction in the cylindrical portion and the round platform portion and the distance of the outlet be 2mm~ 5mm。

In one of the embodiments, the extension body offers spill port.

In one of the embodiments, the distance of the spill port and the air inlet is 4mm~6mm.

A kind of refrigerator, including evaporator, in addition to the reservoir described in any of the above-described embodiment, the reservoir and institute Evaporator connection is stated, the reservoir relative level is inclined to set.

In one of the embodiments, the angle of inclination of the reservoir with respect to the horizontal plane is 55 °~65 °.

Above-mentioned reservoir contains air inlet pipe, and the air inlet pipe has warp architecture in one end of the liquid storage cylinder, it is described enter The outlet of tracheae has angle of inclination towards the madial wall of liquid storage cylinder between the end face of the outlet and the madial wall.It is above-mentioned While being designed to preferably realize gas-liquid separation, the noise and resistance produced during gas refrigerant flowing is reduced, and then Reduce the noise and energy consumption of complete machine.Above-mentioned refrigerator including the reservoir described in any of the above-described embodiment, the liquid storage Device relative level is inclined to set, while preferably realizing gas-liquid separation, and power consumption is less and noise is low.

Brief description of the drawings

Fig. 1 is the structural representation of the reservoir of the embodiment of the utility model one；

Fig. 2 is the diagrammatic cross-section in Fig. 1 along line A-A；

Fig. 3 is close-up schematic views of the Fig. 2 at B；

Fig. 4 is the reservoir of the embodiment of the utility model one and the structural representation of evaporator.

Embodiment

For the ease of understanding the utility model, the utility model is more fully retouched below with reference to relevant drawings State.Better embodiment of the present utility model is given in accompanying drawing.But, the utility model can come in many different forms Realize, however it is not limited to embodiments described herein.On the contrary, the purpose for providing these embodiments is to make to this practicality newly It is more thorough comprehensive that the disclosure of type understands.

It should be noted that when element is referred to as " being fixed on " another element, it can be directly on another element Or can also have element placed in the middle.When an element is considered as " connection " another element, it can be directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " level ", " left side ", For illustrative purposes only, it is unique embodiment to be not offered as " right side " and similar statement.

Unless otherwise defined, all of technologies and scientific terms used here by the article is led with belonging to technology of the present utility model The implication that the technical staff in domain is generally understood that is identical.Description is intended merely in term used in the description of the present utility model The purpose of specific embodiment, it is not intended that in limitation the utility model.Term as used herein " and/or " include one Or the arbitrary and all combination of multiple related Listed Items.

Also referring to Fig. 1 and Fig. 2, reservoir 10 includes air inlet pipe 100 and reservoir body 110, reservoir body 110 Two ends, which are offered, has liquid storage cylinder 113 in gas outlet 111 and air inlet 112, reservoir body, air inlet pipe 100 is arranged at liquid storage In chamber 113, one end of air inlet pipe 100 is connected with air inlet 112, and the other end of air inlet pipe 100 is connected with liquid storage cylinder 113.It is described Reservoir is used to connect with evaporator, for example, one end of the reservoir air inlet pipe is connected with the outlet of the evaporator.Again Such as, the gas outlet is oppositely arranged with the air inlet, and for example, and the gas outlet is connected with the liquid storage cylinder.

Referring to Fig. 2, air inlet pipe 100 has warp architecture, the court of outlet 103 of air inlet pipe 100 in one end of liquid storage cylinder 113 To the madial wall of liquid storage cylinder 113, there is angle of inclination between the end face 104 and madial wall of outlet 103.

Referring to Fig. 2, air inlet pipe 100 includes extension body 101 and buffering body 102, extension body 101 and air inlet 112 connections, extension body 101 is inclined relative to horizontal setting.

Also referring to Fig. 2 and Fig. 3, buffering body 102 has warp architecture, buffers one end and the extension of body 102 One end connection of the body 101 away from air inlet 112, the other end of buffering body 102 is provided with outlet 103, the end face of outlet 103 104 direction and the direction of gas outlet 111 are staggered.

It should be noted that the direction of the gas outlet is generally inclined to or alignd to the end face.So, in the air inlet pipe The gas-liquid mixture ejected may be directly entered the gas outlet in the case where not completing gas-liquid separation, cause liquid hammer to show The generation of elephant.

In order to solve the above problems, the buffering body has warp architecture, and one end of the buffering body is prolonged with described Stretch one end connection of the body away from the air inlet.Pass through above-mentioned design so that the end face of the air inlet pipe is directed away from described The direction of gas outlet.So, even if when external environment changes, the refrigerant situation about not being gasified totally into evaporator Now, the gas-liquid mixture ejected in the air inlet pipe also can complete gas-liquid separation in the reservoir, it is to avoid liquid The situation that cryogen is expelled directly out the reservoir occurs.

Furthermore, it is necessary to which explanation is, it is generally the case that the madial wall of the end face of the air inlet pipe and the reservoir body It is parallel, or the air inlet pipe end face be directed away from the gas outlet direction extension, end face and institute when the air inlet pipe State reservoir body madial wall it is parallel when, when gas refrigerant sprays from the outlet of the air inlet pipe, be directly injected to described On the madial wall of reservoir body, due to reflex, gas can be at an angle of and reflect, and be again introduced into the air inlet pipe, make Disorderly into air current flow, gas flow resistance increase produces larger noise and higher energy consumption；When the end face of the air inlet pipe When being directed away from the direction extension of the gas outlet, when gas refrigerant sprays from the outlet of the air inlet pipe, towards gas outlet Opposite direction flowing, although so avoid gas refrigerant and sprayed from the outlet of the air inlet pipe, be directly injected to suffered by On the madial wall of reservoir body, still, the energy consumption needed for gas refrigerant flows out from gas outlet is added.

In order to solve the above problems, the buffering body has warp architecture, and one end of the buffering body is prolonged with described One end connection of the body away from the air inlet is stretched, the other end of the buffering body is provided with outlet, and the outlet has end Face, the direction of the end face and the direction of the gas outlet are staggered.Thus it is possible, on the one hand, avoiding gas refrigerant from described When the outlet of air inlet pipe sprays, situation about being directly injected on the madial wall of suffered reservoir body occurs, so that, be not in Air current flow is disorderly, gas flow resistance increase, the problem of producing larger noise and higher energy consumption；On the other hand, also keep away Gas refrigerant is exempted from from during the outlet ejection of the air inlet pipe, situation about being flowed towards the opposite direction of gas outlet occurs.

Above-mentioned reservoir 10 contains air inlet pipe, and the air inlet pipe has warp architecture in one end of the liquid storage cylinder, described The outlet of air inlet pipe has angle of inclination towards the madial wall of liquid storage cylinder between the end face of the outlet and the madial wall..On State while be designed to preferably realize gas-liquid separation, reduce the noise and resistance produced during gas refrigerant flowing, enter And reduce the noise and energy consumption of complete machine.

In order to further reduce the noise and energy consumption of the reservoir, preferably realize gas-liquid separation, for example, such as Fig. 2 and Shown in Fig. 3, the outlet of the buffering body is bent towards the air inlet direction, and the angle of bend θ of the warp architecture is 130 ° ~140 °.And for example, the angle of bend θ of the warp architecture is 130 °, and for example, and the angle of bend θ of the warp architecture is 135 °. When the angle of bend θ of the warp architecture is excessive, the air inlet pipe outlet can not completely offset from the direction of the gas outlet, enter And, when external environment changes, when occurring into the refrigerant situation about not being gasified totally of evaporator, it is impossible to avoid completely Liquid refrigerant is expelled directly out the reservoir, triggers the situation of liquid hammer to occur.When the angle of bend θ of the warp architecture is too small When, gas refrigerant can impact the inwall of the air inlet pipe, not only increase flow resistance in the air inlet Bottomhole pressure, also Noise can be triggered, and then increase the noise and energy consumption of complete machine.By by the angle of bend θ of the warp architecture be designed as 130 °~ 140 °, the appearance of above mentioned problem can be avoided well, further reduce the noise and energy consumption of the reservoir, and can be preferable Realize gas-liquid separation in ground.

In order to further reduce the noise triggered when gas refrigerant sprays from escape pipe and required energy consumption, for example, please Refering to Fig. 3, reservoir body 110 has a madial wall 114, the direction bending of the inwards wall 114 of buffering body 102 outlet 103.End The distance of face 104 and madial wall 114 is 8mm~12mm.Angle between end face 104 and madial wall 114 is 10 °~15 °.Again Such as, the distance of the central point of the end face and the madial wall is 8mm~12mm.

It is appreciated that when the distance of the end face and the madial wall is too short, the gas system sprayed from the air inlet pipe Cryogen easily impacts the madial wall of the reservoir body, produces the sound that air-flow hits；When it is described apart from it is long when, certain In degree, it will cause the volume of the reservoir to increase, increase the cost of manufacture and installation cost of the reservoir.When described When the distance of end face and the madial wall is 8mm~12mm, the appearance of above-mentioned situation can be preferably avoided.And for example, the end The distance of face and the madial wall is 9mm.And for example, the distance of the central point of the end face and the madial wall is 9mm.

When the angle number of degrees between the end face and the madial wall are excessive, gas refrigerant sprays from the air inlet pipe When, easily it is directly injected on the madial wall of the escape pipe, passes through the reflex of the madial wall, gas system Cryogen is angled to be reflected, and is reentered in the air inlet pipe, is caused air current flow disorderly, resistance increase, and initiation noise, When the angle number of degrees between the end face and the madial wall are too small, gas refrigerant from the air inlet pipe spray when, easily It is directly injected on the madial wall away from the escape pipe, equally, easily causes gas movement disorder, resistance increases, and Trigger noise.When the angle between the end face and the madial wall is 10 °~15 °, above-mentioned situation can be preferably avoided Occur.And for example, the angle between the end face and the madial wall is 13 °.

By said structure, the noise that triggers when gas refrigerant sprays from escape pipe can be further reduced and required Energy consumption.

While in order to meet the reservoir to the default reserves of liquid refrigerant, the storage is further reduced Noise and energy consumption, for example, referring to Fig. 2, reservoir body 110 includes cylindrical portion 115 and is connected to the one end of cylindrical portion 115 Round platform portion 116, the gas outlet 111 is opened in the round platform portion 116, and the diameter in round platform portion 116 is by close to cylindrical portion 115 It is gradually reduced to the direction away from cylindrical portion 115, the distance of the junction and outlet 103 in cylindrical portion 116 and round platform portion 116 is 2mm~5mm.And for example, the minimum range of the junction in cylindrical portion 116 and round platform portion 116 and outlet 103 is 2mm~5mm, for example, The distance at the junction in cylindrical portion 116 and round platform portion 116 and the middle part of outlet 103 is 2mm~5mm, and for example, the He of cylindrical portion 116 The average distance of the junction in round platform portion 116 and the outlet 103 is 2mm~5mm.When the cylindrical portion and the round platform portion The distance of junction and the outlet is less than normal, is easily caused when gas refrigerant sprays from the air inlet pipe, gas refrigerant It is directly injected on the madial wall of the escape pipe, produces the sound that larger air-flow hits, meanwhile, gas flowing Resistance it is larger, and then energy consumption increase.When the distance of the cylindrical portion and the junction and the outlet in the round platform portion is bigger than normal When, the amount of liquid storage of reservoir can be caused to diminish, reduction reservoir is when refrigeration requirement is small, the reality of storing parts liquid refrigerant Border service efficiency., can when the junction in the cylindrical portion and the round platform portion is 2mm~5mm with the distance of the outlet Preferably avoid the occurrence of above-mentioned.And for example, in the junction in the cylindrical portion and the round platform portion and the exit face The distance of heart point is 2mm~5mm.And for example, the distance of the junction and the outlet in the cylindrical portion and the round platform portion is 2.4mm.And for example, the distance of the junction in the cylindrical portion and the round platform portion and the central point of the exit face is 2.4.This Sample, while disclosure satisfy that the reservoir to the default reserves of liquid refrigerant, further reduces making an uproar for the storage Sound and energy consumption.

In order to avoid the lubricating oil taken out of from compressor is accumulated in reservoir, for example, referring to Fig. 2, the extension Spill port 105 is offered on 101.It is appreciated that in the refrigeration system of refrigerator, when refrigerant passes through compressor, easily taking away Partial shrinkage machine lubricating oil enters circulation, if this partially liq is sucked by compressor again, easily causes liquid hammer, influence compression Machine service life.When the gas refrigerant for carrying compressor lubricant oil enters the reservoir, pass through the reservoir Gas liquid separating function, compressor lubricant oil is deposited in the reservoir, and the compressor lubricant oil accumulated for a long time will influence The work of reservoir.It should be noted that liquid is broadly divided into two parts, liquid refrigerant and lubricating oil in reservoir, lubrication The density of oil is more than the density of refrigerant, and therefore, lubricating oil is deposited on the bottom of the reservoir, and refrigerant is in the upper of lubricating oil Portion, by offering spill port in the extension body, can discharge the compressor lubricant oil of accumulation.

In order to preferably discharge lubricating oil from reservoir, for example, distance of the spill port apart from the air inlet For 4mm~6mm, and for example the central point of the spill port is 4mm~6mm, and for example, the oil return apart from the distance of the air inlet Pitch-row is from being 5.1mm with a distance from the air inlet, and and for example the central point of the spill port is apart from the distance of the air inlet 5.1mm.When the position of spill port is too high, easily refrigerant is discharged, after the position of spill port is too low, due to the air inlet The bearing of trend of the extension body on pipe and horizontal plane formation angle, increase oil extraction resistance, are unfavorable for the profit of accumulation Lubricating oil is discharged.And for example, the quantity of the spill port is at least 1, and for example, and the shape of the spill port is at least circle, three Any one in angular or rectangle.In such manner, it is possible to which preferably lubricating oil is discharged from reservoir.

A kind of refrigerator, including evaporator, the refrigerator also include the reservoir described in any of the above-described embodiment, for example, Referring to Fig. 4, reservoir 10 is connected with evaporator 20, the relative level of reservoir 10 is inclined to set.And for example, the evaporator For evaporator fin.And for example, one end of the reservoir air inlet pipe is connected with the outlet of the evaporator fin.In this implementation In example, when refrigerator is placed in the horizontal plane, evaporator 20 is perpendicular to horizontal plane, for example, the fin of evaporator 20 is perpendicular to level Face, now, the reservoir 10 connected with the evaporator 20 favour horizontal plane.It is noted that horizontal plane be water in gravity Plane when totally stationary under effect where its surface, for example, horizontal plane is in gravity direction.

For example, the refrigeration system of the refrigerator is by compressor, condensation radiator, throttle capillary tube, the big parts group of evaporator four Into.Refrigerant becomes the gas of HTHP after being compressed through compressor, be transformed into the liquid of cryogenic high pressure after condenser radiates Body, then by capillary-compensated be depressured after enter evaporator gasify absorb heat, eventually pass back to compressor and start the cycle over again.With external The change of environment, the refrigerant into the evaporator can there is a situation where not to be gasified totally.After the gasification heat absorption of evaporator 20 Gas refrigerant by air inlet pipe 100 enter reservoir body 110, the refrigerant not being gasified totally is in reservoir body 110 Inside realizing gas-liquid separation, it is to avoid unvaporized refrigerant causes liquid hammer when being sucked again by compressor, and then shorten compressor makes Occur with the situation in life-span.

It should be noted that in most cases, when gas refrigerant by the air inlet pipe enters the reservoir body When, gas refrigerant easily directly hits the madial wall of the reservoir body, also easily similar in the outlet of the air inlet pipe Fountain sprays to surrounding, produces noise；The resistance increase of gas refrigerant flowing, and then increase the energy consumption of complete machine.So as to increase The noise and energy consumption of refrigerator complete machine.

In order to solve the above problems, the reservoir is inclined relative to horizontal setting, reduces going out for the air inlet pipe Difference in height between mouth and horizontal plane, and then, when gas refrigerant enters the reservoir body by the air inlet pipe, The pressure differential that the outlet of the air inlet pipe is produced diminishes.Using said structure, on the one hand, avoid gas refrigerant and directly hit The madial wall of the reservoir body, the similar fountain in outlet for being also prevented from gas refrigerant in the air inlet pipe sprays to surrounding, And then the sound that the sound of gas eruption and gas flowing are hit preferably is reduced, and then reduce the noise of complete machine generation； On the other hand, the resistance of gas refrigerant flowing diminishes, and then reduces the energy consumption of complete machine.

In order to further reduce noise and the energy consumption that the reservoir is produced, so that, reduce the noise and energy consumption example of refrigerator Such as, the angle of inclination of the reservoir with respect to the horizontal plane is 55 °~65 °.And for example, the reservoir inclining with respect to the horizontal plane Rake angle is 55 °.And for example, the angle of inclination of the reservoir with respect to the horizontal plane is 60 °.When the reservoir and horizontal plane shape The number of degrees into angle are too small, when being, for example, less than 55 °, that is to say, that when the angle of eccentricity of the reservoir and gravity direction is excessive, It may result in the liquid refrigerant accumulated in the reservoir to flow back away from the escape pipe, cause liquid hit phenomenon to be sent out It is raw.When the angle number of degrees that the reservoir and horizontal plane are formed are excessive, when being greater than 65 °, it is impossible to so that the air inlet pipe goes out Difference in height mouthful between horizontal plane minimizes value, and then, when gas refrigerant by the air inlet pipe into the liquid storage During device body, it is impossible to which the pressure differential that generation is exported in the air inlet pipe is minimized into value.By by it is described extension body with The number of degrees of horizontal plane are designed as 55 °~65 ° so that the difference in height between the air inlet pipe outlet and horizontal plane is minimized While value, it is to avoid flowing back away from the escape pipe for the liquid refrigerant accumulated in the reservoir, cause liquid hammer Phenomenon occurs so that, reduce further noise and energy consumption that the reservoir is produced, and then, reduce refrigerator noise and Energy consumption.

Above-mentioned refrigerator includes the reservoir described in any of the above-described embodiment, in addition to evaporator.The reservoir and institute Evaporator connection is stated, the reservoir relative level is inclined to set.On the one hand so that the system discharged from the evaporator Cryogen realizes gas-liquid separation in the reservoir, has stored the liquid refrigerant of scheduled volume, on the other hand, preferable drop The noise and energy consumption of the low refrigerator.

Each technical characteristic of embodiment described above can be combined arbitrarily, to make description succinct, not to above-mentioned reality Apply all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, the scope of this specification record is all considered to be.

Embodiment described above only expresses several embodiments of the present utility model, and it describes more specific and detailed Carefully, but can not therefore and be interpreted as the limitation to the utility model the scope of the claims.It should be pointed out that for the general of this area For logical technical staff, without departing from the concept of the premise utility, various modifications and improvements can be made, these are all Belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.

Claims (10)

1. a kind of reservoir, the reservoir is used to connect with evaporator, the reservoir includes air inlet pipe and reservoir body, The reservoir body two ends, which are offered, has liquid storage cylinder in gas outlet and air inlet, the reservoir body, it is characterised in that The air inlet pipe is arranged in the liquid storage cylinder, and one end of the air inlet pipe is connected with the air inlet, the air inlet pipe it is another One end is connected with the liquid storage cylinder, the air inlet pipe has warp architecture in one end of the liquid storage cylinder, and the air inlet pipe goes out Mouth has angle of inclination towards the madial wall of liquid storage cylinder between the end face of the outlet and the madial wall.

2. reservoir according to claim 1, it is characterised in that the air inlet pipe includes extension body and buffering body；

The extension body is connected with the air inlet, and the extension body is overlapped with the axis of the liquid storage cylinder；

The warp architecture is arranged at the buffering body, and one end of the buffering body is entered with the extension body away from described in One end connection of gas port, the other end of the buffering body is provided with outlet, the direction of the end face of the outlet and the outlet The direction of mouth is staggered.

3. reservoir according to claim 1, it is characterised in that the angle of bend of the warp architecture is 130 °~ 140°。

4. reservoir according to claim 1, it is characterised in that the distance of the end face and the madial wall for 8mm~ 12mm。

5. reservoir according to claim 1, it is characterised in that the angle between the end face and the madial wall is 10 °~15 °.

6. reservoir according to claim 1, it is characterised in that the reservoir body includes cylindrical portion and is connected to The round platform portion of described cylindrical portion one end, the gas outlet is opened in the round platform portion, and the diameter in the round platform portion is by close to described Cylindrical portion is gradually reduced to the direction away from the cylindrical portion, the junction in the cylindrical portion and the round platform portion and the outlet Distance be 2mm~5mm.

7. reservoir according to claim 2, it is characterised in that the extension body offers spill port.

8. reservoir according to claim 7, it is characterised in that the distance of the spill port and the air inlet is 4mm ~6mm.

9. a kind of refrigerator, including evaporator, it is characterised in that also including the reservoir any one of claim 1 to 8, The reservoir is connected with the evaporator, and the reservoir relative level is inclined to set.

10. refrigerator according to claim 9, it is characterised in that the angle of inclination of the reservoir with respect to the horizontal plane is 55 °~65 °.