CN208887072U - Vibration absorber for air-conditioning - Google Patents
Vibration absorber for air-conditioning Download PDFInfo
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- CN208887072U CN208887072U CN201821341239.5U CN201821341239U CN208887072U CN 208887072 U CN208887072 U CN 208887072U CN 201821341239 U CN201821341239 U CN 201821341239U CN 208887072 U CN208887072 U CN 208887072U
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Abstract
The utility model relates to air-conditioning technical fields, specifically provide a kind of vibration absorber for air-conditioning, it is intended to solve the problems, such as that existing air-conditioned vibration absorber effectiveness in vibration suppression is undesirable.For this purpose, the air-conditioning of the utility model includes compressor, heat exchanger and the connecting pipe for connect compressor and heat exchanger, vibration absorber includes the vibration damping container being arranged in connecting pipe, vibration damping container is used to absorb the pulse of the refrigerant in connecting pipe, to inhibit the vibration of connecting pipe.The utility model changes the cross-sectional area of connecting pipe using above-mentioned vibration absorber, so that the cross-sectional area of connecting pipe increases suddenly, gaseous coolant so in connecting pipe is when flowing through vibration damping container, reduce the flow velocity of gaseous coolant, to reduce the influence of pulse pair connecting pipe, inhibit the vibration of connecting pipe, it avoids and connecting pipe, heat exchanger and compressor is damaged, the service life of connecting pipe, heat exchanger and compressor is extended, and then improves the usage experience of user.
Description
Technical field
The utility model relates to air-conditioning technical fields, specifically provide a kind of vibration absorber for air-conditioning.
Background technique
Air-conditioning, which refers to the process of, to be adjusted and is controlled to the surrounding air in building or structures by artificial means.For
The cooling or heating effect of air-conditioning is improved, Gas-supplying enthalpy-increasing compressor, which has begun, rises and be applied to air-conditioning system, passes through pipeline
The tonifying Qi into compressor, increases the refrigerant circulation of air-conditioning system, to improve the cooling or heating effect of air-conditioning system.But
It is, due to the unstability of refrigerant in pipeline, so that strong pressure pulse can be generated in pipeline, so that pipeline can generate
Violent vibration and the solenoid valve being arranged on pipeline is made to generate huge noise, vibration can to pipeline and surrounding its
He damages at equipment, influences the service life of pipeline and other equipment, can also form noise pollution to environment, make one to be hurt
Evil, such as hearing and cardio-cerebrovascular are endangered, it greatly affected the usage experience of user.
To solve the above-mentioned problems, there is the rubber damping of damping characteristic to fill for setting on above-mentioned pipeline in the prior art
It sets, which can only play vibration damping sound deadening when compressor is in certain frequencies, when the compressor of compressor
Frequency segment limit when larger above-mentioned pipeline still suffer from larger vibration, cannot play vibration damping when compressor is in all frequencies
Sound deadening, it is difficult to meet the use demand of user.
Therefore, this field needs the vibration absorber for air-conditioning of one kind newly to solve the above problems.
Utility model content
In order to solve the above problem in the prior art, pay no attention in order to solve now air-conditioned vibration absorber effectiveness in vibration suppression
The problem of thinking, the utility model provide a kind of vibration absorber for air-conditioning, and air-conditioning includes compressor, heat exchanger and is used for
The connecting pipe of connect compressor and heat exchanger, vibration absorber include the vibration damping container being arranged in connecting pipe, vibration damping container
For absorbing the pulse of the refrigerant in connecting pipe, to inhibit the vibration of connecting pipe.
In the optimal technical scheme of above-mentioned vibration absorber, vibration absorber further includes isocon group, the import of connecting pipe
It is connected to the outlet of heat exchanger, the outlet of connecting pipe is connected to the import of vibration damping container, and the import of isocon group, which is connected to, to be subtracted
The inside of vibration container, the outlet of isocon group is connected to the gas supplementing opening of compressor.
In the optimal technical scheme of above-mentioned vibration absorber, isocon group includes the first shunt conduit, the first shunt conduit
Import be connected to the inside of vibration damping container, the outlet of the first shunt conduit is connected to the gas supplementing opening of compressor, from heat exchanger stream
The refrigerant entered in vibration damping container flows to compressor by the first shunt conduit.
In the optimal technical scheme of above-mentioned vibration absorber, isocon group further includes the second shunt conduit, the second isocon
The import in road is connected to the inside of vibration damping container, and the outlet of the second shunt conduit is connected to the gas supplementing opening of compressor, flows back into and subtract
Refrigerant in vibration container flows to compressor by the second shunt conduit.
In the optimal technical scheme of above-mentioned vibration absorber, the side wall of vibration damping container is equipped with first outlet, and first shunts
The import of pipeline passes through first outlet and is connected to the inside of vibration damping container;And/or is additionally provided on the side wall of vibration damping container
Two outlets, the import of the second shunt conduit pass through second outlet and are connected to the inside of vibration damping container.
In the optimal technical scheme of above-mentioned vibration absorber, the height of first outlet is greater than the height of second outlet.
In the optimal technical scheme of above-mentioned vibration absorber, the gas supplementing opening of compressor includes the first gas supplementing opening and the second tonifying Qi
Mouthful, the outlet of the first shunt conduit is connected with the first gas supplementing opening, and the outlet of the second shunt conduit is connected with the second gas supplementing opening.
In the optimal technical scheme of above-mentioned vibration absorber, the first shunt conduit and the second shunt conduit are being connected to compression
It crosses each other before the gas supplementing opening of machine and therefore forms three-way pipeline.
In the optimal technical scheme of above-mentioned vibration absorber, connecting pipe includes the first pipeline section and the second pipeline section, the first pipe
The import of section is connected to the outlet of heat exchanger, and the outlet of the first pipeline section is connected to the import of vibration damping container, the import of the second pipeline section
It is connected to the outlet of three-way pipeline, the outlet of the second pipeline section is connected to the gas supplementing opening of compressor.
In the optimal technical scheme of above-mentioned vibration absorber, the first pipeline section is equipped with solenoid valve.
It will be appreciated to those of skill in the art that in the optimal technical scheme of the utility model, vibration absorber includes
Vibration damping container in connecting pipe is set, compared with the existing technology on pipeline setting have damping characteristic rubber damping
Vibration damping container is arranged in connecting pipe for the technical solution of device, the utility model, changes connecting tube by vibration damping container
The cross-sectional area in road, so that the cross-sectional area of connecting pipe increases suddenly, then the gaseous coolant in connecting pipe subtracts flowing through
When vibration container, the flow velocity of gaseous coolant is reduced, to reduce the influence of pulse pair connecting pipe, it is suppressed that connecting pipe
Vibration, avoids and damages to connecting pipe, heat exchanger and compressor, extend connecting pipe, heat exchanger and compressor
Service life, and then improve the usage experience of user.
Further, since the cross-sectional area of vibration damping container is greater than the cross-sectional area of connecting pipe, vibration damping appearance is flowed into
Gaseous coolant in device slows, but the liquid refrigerants carried secretly in gaseous coolant is under the action of inertia, continues to keep
Faster speed moves downward the bottom for droping to vibration damping container, and gaseous coolant is located at the top of vibration damping container, to realize
The purpose that liquid refrigerants and gaseous coolant are separated, avoids gaseous coolant entraining liquid refrigerant and enters compressor, avoid pressure
Liquid hit phenomenon occurs for contracting machine.
Further, refrigerant flows back into vibration damping container, such as refrigeration oil, since the density of refrigeration oil is less than liquid
The density of state refrigerant, refrigeration oil are located at the top of liquid refrigerants, liquid refrigerants are on the one hand made to be stored in the bottom of vibration damping container,
It avoids liquid refrigerants and enters compressor, avoid compressor and liquid hit phenomenon occurs;On the other hand, refrigeration oil is avoided to accumulate in
The bottom of vibration damping container allows refrigeration oil to flow to compressor by the second shunt conduit, positioned at the gas of vibration damping upper vessel portion
State refrigerant flows to compressor by the first shunt conduit, avoids only gaseous coolant and flows into compressor and cause in compressor
Refrigeration oil is diluted, and improves the stability of compressor operation.
Detailed description of the invention
Fig. 1 is the first structure diagram of the air-conditioning of the utility model;
Fig. 2 is the second structural schematic diagram of the air-conditioning of the utility model;
Fig. 3 is the structural schematic diagram of the vibration absorber of the utility model;
Fig. 4 is the structural schematic diagram of the compressor of the utility model.
Specific embodiment
Preferred embodiments of the present invention are described with reference to the accompanying drawings.It should be understood by those skilled in the art that
It is that these embodiments are used only for explaining the technical principle of the utility model, it is not intended that limit the protection of the utility model
Range.For example, although the application is described in conjunction with heat exchanger and compressor, the technical solution of the utility model is simultaneously
Not limited to this, which obviously also can be applied to other similar occasion, this to change without departing from originally practical new
The principle and range of type.
It should be noted that term "top", "bottom", "left", "right", "upper", "lower" etc. in the description of the present invention,
The direction of instruction or the term of positional relationship are direction based on the figure or positional relationship, this, which is intended merely to facilitate, retouches
It states, rather than indication or suggestion described device or element must have a particular orientation, be constructed and operated in a specific orientation, because
This should not be understood as limiting the present invention.In addition, term " first ", " second ", " third ", " the 4th " are only used for describing
Purpose is not understood to indicate or imply relative importance.
In addition it is also necessary to explanation, in the description of the present invention, unless otherwise clearly defined and limited, art
Language " installation ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or
It is integrally connected;It can be mechanical connection, be also possible to be electrically connected;It can be directly connected, it can also be by between intermediary
It connects connected, can be the connection inside two elements.To those skilled in the art, can understand as the case may be above-mentioned
The concrete meaning of term in the present invention.
Based on the problems of the prior art mentioned in background technique, the utility model provides a kind of subtracting for air-conditioning
Vibrating device, the vibration absorber can effectively inhibit the vibration of connecting pipe, avoid and make to connecting pipe, heat exchanger and compressor
At damage, the service life of connecting pipe, heat exchanger and compressor is extended;Avoid the solenoid valve being arranged in connecting pipe
Huge noise is generated, avoids and noise pollution is formed to environment, avoids and hearing is endangered to user and cardio-cerebrovascular is made
At injury, and then improve the usage experience of user.
Referring to Fig. 1 to Fig. 4, Fig. 1 is the first structure diagram of the air-conditioning of the utility model;Fig. 2 is the utility model
Second structural schematic diagram of air-conditioning;Fig. 3 is the structural schematic diagram of the vibration absorber of the utility model;Fig. 4 is the utility model
The structural schematic diagram of compressor.As shown in Figure 1, the air-conditioning of the utility model includes compressor 1, heat exchanger 2 and for connecting
The connecting pipe 3 of compressor 1 and heat exchanger 2, the vibration absorber include the vibration damping container 4 being arranged in connecting pipe 3, and vibration damping holds
Device 4 is used to absorb the pulse of the gaseous coolant in connecting pipe 3, to inhibit the vibration of connecting pipe 3.
Preferably, compressor 1 is Gas-supplying enthalpy-increasing compressor 1, certainly, compressor 1 or other compressors 1, as long as
Air-conditioning is operated normally.
In a kind of preferable embodiment party's examination, as shown in Figure 1, vibration absorber further includes isocon group 5, connecting pipe 3
Import is connected to the outlet of heat exchanger 2, and the outlet of connecting pipe 3 is connected to the import 41 of vibration damping container 4, isocon group 5 into
Mouth is connected to the inside of vibration damping container 4, and the outlet of isocon group 5 is connected to the gas supplementing opening 11 of compressor 1.
Preferably, as shown in figure 3, isocon group 5 includes the first shunt conduit 51, the import of the first shunt conduit 51 is connected
To the inside of vibration damping container 4, the outlet of the first shunt conduit 51 is connected to the gas supplementing opening 11 of compressor 1, subtracts from the inflow of heat exchanger 2
Refrigerant in vibration container 4 flows to compressor 1 by the first shunt conduit 51.
Preferably, the side wall of vibration damping container 4 is equipped with first outlet 42, and the outlet of the first shunt conduit 51 goes out across first
Mouth 42 is connected to the inside of vibration damping container 4.
Preferably, vibration damping container 4 is tubular structure, certainly, vibration damping container 4 or column structure, rectangular configuration etc.
Other structures, this change is without departing from the principles of the present invention and range.
Preferably, the aperture of first outlet 42 is 1/8 to the 1/2 of the outer diameter of vibration damping container 4.
Preferably, the length in the first shunt conduit 51 insertion vibration damping container 4 is 1/8 to the 7/ of the outer diameter of vibration damping container 4
8。
Preferably, the first shunt conduit 51 can be straight tube or bend pipe.
Preferably, there is solenoid valve 6 in connecting pipe 3.
When to 1 tonifying Qi of compressor, the gaseous coolant flowed in connecting pipe 3 is flowed into vibration damping container 4, flows into vibration damping
Gaseous coolant in container 4 flows to compressor 1 by the first shunt conduit 51, in the process, transversal due to vibration damping container 4
Area is greater than the cross-sectional area of connecting pipe 3, so that the cross-sectional area of connecting pipe 3 increases suddenly, then in connecting pipe 3
Gaseous coolant reduces the flow velocity of the gaseous coolant flowed into vibration damping container 4, to reduce arteries and veins when flowing through vibration damping container 4
Rush the influence to connecting pipe, it is suppressed that the vibration of connecting pipe avoids and causes to damage to connecting pipe, heat exchanger and compressor
Evil, extends the service life of connecting pipe, heat exchanger and compressor;And avoid the electromagnetism being arranged in connecting pipe 3
Valve 6 generates huge noise, avoids and forms noise pollution to environment, avoids and endanger hearing and cardio-cerebrovascular to user
It damages, and then improves the usage experience of user.At the same time, since the cross-sectional area of vibration damping container 4 is greater than connecting tube
The cross-sectional area in road 3, the speed for flowing into the gaseous coolant in vibration damping container 4 reduces, but the liquid carried secretly in gaseous coolant
State refrigerant under the action of inertia, continues that faster speed is kept to move downward the bottom for droping to vibration damping container 4, gaseous coolant
Positioned at vibration damping container 4 top and compressor 1 is flowed to by the first shunt conduit 51, to realize liquid refrigerants and gaseous state
The purpose of refrigerant separation, avoids gaseous coolant entraining liquid refrigerant and enters compressor 1, and it is existing to avoid the generation liquid hammer of compressor 1
As.That is, no matter how the frequency band of compressor 1, which changes, is able to suppress connecting pipe 3 using the vibration damping container 4
Vibration reduces the noise for the solenoid valve 6 being arranged in connecting pipe 3.
In order to improve the effect of gas-liquid separation, the top of vibration damping container 4 is arranged in the import 41 of vibration damping container 4, from heat exchange
The gaseous coolant that device 2 flows out flows into vibration damping container 4 from the top of vibration damping container 4, extends the liquid carried secretly in gaseous coolant
The path of refrigerant decline can preferably separate the liquid refrigerants carried secretly in gaseous coolant, to improve gas-liquid separation
Effect.Certainly, the setting position of the import 41 of vibration damping container 4 is not limited to the above-mentioned position enumerated, can also be by vibration damping container 4
The top of the side wall of vibration damping container 4 is arranged in import 41, adjusts the setting position of the import 41 of vibration damping container 4 anyway, only
It wants to be delivered in vibration damping container 4 from the gaseous coolant that heat exchanger 2 flows out.
In order to improve the stability of the operation of compressor 1, since refrigeration oil is as refrigerant is in air-conditioning system internal circulation flow, that
Refrigeration oil can also flow back into vibration damping container 4, and since the density of refrigeration oil is less than the density of liquid refrigerants, refrigeration oil then position
In the top of liquid refrigerants, liquid refrigerants is on the one hand made to be stored in the bottom of vibration damping container 4, avoids liquid refrigerants and enter pressure
Contracting machine 1 avoids compressor 1 and liquid hit phenomenon occurs;On the other hand, the bottom that refrigeration oil accumulates in vibration damping container 4 is avoided, is made
It obtains refrigeration oil and the gaseous coolant positioned at 4 top of vibration damping container passes through the first shunt conduit 51 and flows to compressor 1, avoid only
There is gaseous coolant to flow into compressor 1 and the refrigeration oil in compressor 1 is caused to be diluted, improves the stability of the operation of compressor 1.
Preferably, liquid nitrogen, ammonia or C can also be used3Deng other refrigerants.
In order to which gaseous coolant and refrigeration oil are shunted, as shown in figure 3, isocon group 5 further includes the second shunt conduit 52, the
The import of two shunt conduits 52 is connected to the inside of vibration damping container 4, and the outlet of the second shunt conduit 52 is connected to the benefit of compressor 1
Port 11, the refrigeration oil in vibration damping container 4 flows to compressor 1 by the second shunt conduit 52, and flows into vibration damping from heat exchanger 2 and hold
Refrigerant in device 4 flows to compressor 1 by the first shunt conduit 51.
Preferably, second outlet 43 is additionally provided on the side wall of vibration damping container 4, the outlet of the second shunt conduit 52 is across second
Outlet 43 is connected to the inside of vibration damping container 4.
Preferably, the aperture of second outlet 43 is 1/8 to the 1/2 of the outer diameter of vibration damping container 4.
Preferably, the length in the second shunt conduit 52 insertion vibration damping container 4 is 1/8 to the 7/ of the outer diameter of vibration damping container 4
8。
Preferably, the second shunt conduit 52 can be straight tube or bend pipe.
It is flowed out out of vibration damping container 4 respectively for the ease of gaseous coolant and refrigeration oil, first outlet 42 is arranged in vibration damping
The lower part of vibration damping container 4 is arranged in the top of container 4, second outlet 43, i.e. the height of first outlet 42 is greater than second outlet 43
Height, since gaseous coolant is located at the top of vibration damping container 4, gaseous coolant will be from the of the top for being located at vibration damping container 4
One outlet 42 flows into the first shunt conduit 51, and then flows into compressor 1;Due to refrigeration oil be located at the top of liquid refrigerants and
Positioned at the lower section of gaseous coolant, connect then refrigeration oil will flow into third from the second outlet 43 for the lower part for being located at vibration damping container 4
It takes in road, and then flows into compressor 1, to realize the purpose of gaseous coolant and refrigeration oil shunting.
It will be appreciated to those of skill in the art that the first outlet 42 of vibration damping container 4 and the setting position of second outlet 43
It sets and is not limited to the above-mentioned position enumerated, the first outlet 42 of vibration damping container 4 can also be arranged in the top of vibration damping container 4, it will
The middle part of vibration damping container 4 is arranged in the second outlet 43 of vibration damping container 4, adjusts the first outlet 42 of vibration damping container 4 anyway
With the setting position of second outlet 43, as long as can by vibration damping container 4 gaseous coolant and refrigeration oil be delivered in compressor 1
?.
It should be further noted that when the liquid refrigerants in vibration damping container 4 is more, the vibration damping that is accounted for due to liquid refrigerants
The inner space of container 4 is larger, it will leading to the effectiveness in vibration suppression of vibration damping container 4 reduces, in order to guarantee the vibration damping effect of vibration damping container 4
A part of liquid refrigerants in vibration damping container 4 can be flowed into compression from the second outlet 43 for the lower part for being located at vibration damping container 4 by fruit
In machine 1, so that the space for the vibration damping container 4 that liquid refrigerants accounts for is reduced, so that there is enough spaces for inhaling in vibration damping container 4
The pulse of the gaseous coolant flowed into it is received, and then improves the sustainability of the vibration damping erasure effect of vibration absorber.Work as vibration damping
When liquid refrigerants in container 4 is less, gaseous coolant can not only be flowed into compressor 1 by the first shunt conduit 51, may be used also
To be flowed into compressor 1 by the second shunt conduit 52.
In order to improve the stability of the first shunt conduit 51 and the connection of the second shunt conduit 52, the first of vibration damping container 4 goes out
Mouthfuls 42 and second outlet 43 at be provided with flange so that the first shunt conduit 51 and the second shunt conduit 52 are respectively and vibration damping
The first outlet 42 and second outlet 43 of container 4 connect stronger.
Preferably, the height of flange is more than or equal to 1mm, and certainly, the height of flange can also be greater than other height values, nothing
By take as long as which kind of height value enables to the first shunt conduit 51 and the second shunt conduit 52 respectively with vibration damping container 4
One outlet 42 and second outlet 43 securely connect.
In a kind of preferable embodiment, as shown in figure 3, the first shunt conduit 51 and the second shunt conduit 52 are connecting
It crosses each other before to the gas supplementing opening 11 of compressor 1 and therefore forms three-way pipeline 53, so that the first shunt conduit 51 conveyed
Gaseous coolant and the refrigeration oil of the second shunt conduit 52 conveying enter compressor 1 after being sufficiently mixed in three-way pipeline 53, thus
It avoids gaseous coolant and refrigeration oil to be unevenly distributed in compressor 1, the partial freeze oil avoided in compressor 1 is dilute
It releases, further improves the stability of the operation of compressor 1.
Further, connecting pipe 3 includes the first pipeline section 31 and the second pipeline section 32, the import of the first pipeline section 31 and heat exchanger
2 outlet connection, the outlet of the first pipeline section 31 are connected with the import of vibration damping container 4, the import of the second pipeline section 32 and three-way pipeline
Outlet connection, the gas supplementing opening 11 of the outlet of the second pipeline section 32 and compressor connects.
Preferably, as shown in Figure 1, solenoid valve 6 is arranged on the first pipeline section 31, solenoid valve 6 flows to compressor 1 for controlling
Gaseous coolant inflow process.Using the technical solution, when needing to when 1 tonifying Qi of compressor, opens solenoid valve 6, so that from
The gaseous coolant that heat exchanger 2 flows out flows into vibration damping container 4 first, then flows into compressor 1, passes through the effect of vibration damping container 4
Inhibit the vibration of the first pipeline section 31 and the second pipeline section 32, reduce the noise of solenoid valve 6, extend the service life of connecting pipe 3,
Improve the usage experience of user.
Preferably, the first pipeline section 31 and the second pipeline section 32 can be straight tube or bend pipe.
There are many modes for the shutdown and connection for realizing the first pipeline section 31 and the second pipeline section 32.Such as it can be in the first pipeline section 31
Solenoid valve is respectively set in the second pipeline section 32, by control solenoid valve realize the first pipeline section 31 and the second pipeline section 32 connect with
Switching between shutdown.Ball valve, butterfly valve etc. can also be respectively set in the first pipeline section 31 and the second pipeline section 32, no matter what be taken
As long as kind of valve can be realized the shutdown and connection of the first pipeline section 31 and the second pipeline section 32.
Certainly, it will be apparent to those skilled in the art, solenoid valve 6 can not also be set in connecting pipe 3 (as schemed
Shown in 2), those skilled in the art can neatly adjust whether solenoid valve 6 is arranged in connecting pipe 3 in practical applications.
Preferably, as shown in Figure 1 and Figure 4, the inside of compressor 1 is equipped with tonifying Qi pipeline 12, and the import of tonifying Qi pipeline 12 is logical
The gas supplementing opening 11 of overcompression machine 1 is connect with the outlet of the second pipeline section 32, the gaseous coolant and second of the first shunt conduit 51 conveying
The refrigeration oil that shunt conduit 52 conveys is delivered in compressor 1 after being sufficiently mixed in three-way pipeline 53 by tonifying Qi pipeline 12.
Preferably, tonifying Qi pipeline 12 be bend loss, bend loss outlet be located at bend loss import top or with it is curved
The import of pipeline section in the same horizontal line so that in uniformly mixed gaseous coolant and freezing oil spurts to compressor 1, to make
The gaseous coolant and refrigeration oil that must be uniformly mixed are evenly distributed in compressor 1, avoid the partial freeze oil quilt in compressor 1
Dilution further improves the stability of the operation of compressor 1.Certainly, tonifying Qi pipeline 12 or the pipeline of other shapes, example
Which kind of such as straight tube, refrigerant and refrigeration oil can be delivered in compressor 1 as long as no matter taking the pipeline of shape.
Alternative, the gas supplementing opening 11 of compressor 1 can be set to two, respectively the first gas supplementing opening and the second gas supplementing opening
(not shown) connects the outlet of the first shunt conduit 51 with the first gas supplementing opening, the outlet of the second shunt conduit 52 and
Two gas supplementing openings connection, to realize the connection of the first shunt conduit 51 and the second shunt conduit 52 and gas supplementing opening 11.
It should be further noted that the connection type of the first shunt conduit 51 and the second shunt conduit 52 be not limited to it is above-mentioned
The mode enumerated can also take other connection types, which kind of mode no matter taken, as long as can be by the first shunt conduit 51
The refrigerant of conveying and the cooling medium of the second shunt conduit 52 conveying are delivered to compressor.
In addition, the structure of isocon group 5 is not limited to the above-mentioned structure enumerated, can increase according to demand in actual use
The quantity of shunt conduit, such as isocon group 5 further includes third shunt conduit and the 4th shunt conduit, no matter the number of shunt conduit
How amount changes, so that all shunt conduits are respectively communicated with vibration damping container and compressor.
So far, it has been combined preferred embodiment shown in the drawings and describes the technical solution of the utility model, still, this
Field technical staff is it is easily understood that the protection scope of the utility model is expressly not limited to these specific embodiments.?
Under the premise of the principles of the present invention, those skilled in the art can make equivalent change to the relevant technologies feature
Or replacement, the technical solution after these changes or replacement are fallen within the protection scope of the utility model.
Claims (10)
1. a kind of vibration absorber for air-conditioning, the air-conditioning includes compressor, heat exchanger and for connecting the compressor
With the connecting pipe of the heat exchanger,
It is characterized in that, the vibration absorber includes the vibration damping container being arranged in the connecting pipe, the vibration damping container is used
In the pulse for absorbing the refrigerant in the connecting pipe, to inhibit the vibration of the connecting pipe.
2. vibration absorber according to claim 1, which is characterized in that the vibration absorber further includes isocon group, described
The import of connecting pipe is connected to the outlet of the heat exchanger, the outlet of the connecting pipe be connected to the vibration damping container into
Mouthful, the import of the isocon group is connected to the inside of the vibration damping container, and the outlet of the isocon group is connected to the pressure
The gas supplementing opening of contracting machine.
3. vibration absorber according to claim 2, which is characterized in that the isocon group includes the first shunt conduit, institute
The import for stating the first shunt conduit is connected to the inside of the vibration damping container, and the outlet of first shunt conduit is connected to described
The gas supplementing opening of compressor, the refrigerant flowed into the vibration damping container from the heat exchanger flow to institute by first shunt conduit
State compressor.
4. vibration absorber according to claim 3, which is characterized in that the isocon group further includes the second shunt conduit,
The import of second shunt conduit is connected to the inside of the vibration damping container, and the outlet of second shunt conduit is connected to institute
The gas supplementing opening for stating compressor, the refrigerant flowed back into the vibration damping container flow to the pressure by second shunt conduit
Contracting machine.
5. vibration absorber according to claim 4, which is characterized in that the side wall of the vibration damping container is equipped with first and goes out
Mouthful, the import of first shunt conduit passes through the first outlet and is connected to the inside of the vibration damping container;And/or
Second outlet is additionally provided on the side wall of the vibration damping container, the import of second shunt conduit passes through the second outlet
It is connected to the inside of the vibration damping container.
6. vibration absorber according to claim 5, which is characterized in that the height of the first outlet is greater than described second and goes out
The height of mouth.
7. vibration absorber according to claim 4, which is characterized in that the gas supplementing opening of the compressor includes the first gas supplementing opening
With the second gas supplementing opening, the outlet of first shunt conduit is connected with first gas supplementing opening, and second shunt conduit goes out
Mouth is connected with second gas supplementing opening.
8. vibration absorber according to claim 4, which is characterized in that first shunt conduit and second isocon
Road crosses each other before the gas supplementing opening for being connected to the compressor and therefore forms three-way pipeline.
9. vibration absorber according to claim 8, which is characterized in that the connecting pipe includes the first pipeline section and the second pipe
Section, the import of first pipeline section are connected to the outlet of the heat exchanger, and the outlet of first pipeline section is connected to the vibration damping
The import of container, the import of second pipeline section are connected to the outlet of the three-way pipeline, the outlet connection of second pipeline section
To the gas supplementing opening of the compressor.
10. vibration absorber according to claim 9, which is characterized in that first pipeline section is equipped with solenoid valve.
Priority Applications (1)
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CN201821341239.5U CN208887072U (en) | 2018-08-20 | 2018-08-20 | Vibration absorber for air-conditioning |
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CN201821341239.5U CN208887072U (en) | 2018-08-20 | 2018-08-20 | Vibration absorber for air-conditioning |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110848962A (en) * | 2018-08-20 | 2020-02-28 | 青岛海尔空调电子有限公司 | Vibration damper for air conditioner |
-
2018
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110848962A (en) * | 2018-08-20 | 2020-02-28 | 青岛海尔空调电子有限公司 | Vibration damper for air conditioner |
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