The present invention relates to the field of refrigeration devices, and more particularly to a diffuser for a centrifugal compressor.
In the field of refrigeration, a compressor is a particularly critical part in a refrigeration system. A good compressor can provide a more excellent refrigeration performance. As one type of refrigeration compressors, centrifugal compressors are widely used in the field of commercial refrigeration due to their capacities of providing efficient and large tonnage of refrigeration. However, under different operating conditions, especially under a condition of partial load operation, problems such as compressor surge and vibration and the like easily occur at a constant diffuser flow passage of a centrifugal compressor. In this context, various structural designs are often adopted to enable an adjustable flow passage width of the compressor diffuser, to thereby improve the surge problem of the centrifugal compressor and to reduce compressor noise and vibration. As one of the embodiments, a spool valve assembly can be provided on the diffuser to achieve the effect of adjusting the flow passage width of the diffuser. However, how to reasonably arrange the spool valve assembly in the diffuser and how to adjust and improve relevant structures have become urgent technical problems to be solved.
An object of the present invention is to provide a diffuser for a centrifugal compressor, which is capable of adjusting a flow area of a diffuser flow passage.
A further object of the present invention is to provide a centrifugal compressor which is capable of adjusting a flow area of a diffuser flow passage.
According to one aspect of the present invention, there is provided a diffuser for a centrifugal compressor, comprising: a drive component, a transmission assembly, an adjustment assembly, a spool valve assembly and a rear wall; wherein the transmission assembly is used for transmitting power produced by the drive component to the adjustment assembly, the adjustment assembly is capable of reciprocating circumferentially with respect to the rear wall and driving the spool valve assembly to reciprocate axially; and wherein a rolling element is provided between the adjustment assembly and the rear wall.
According to another aspect of the present invention, there is further provided a centrifugal compressor comprising the diffuser as described above.
With reference to
Constituent Details of various assemblies will be illustrated respectively in detail below in conjunction with
With reference to
With reference to
Specifically, an axially protruding boss 131b is provided on the adjustment ring and the diagonal groove 131a is provided on the boss 131b. Such a configuration is more convenient to arrange the diagonal groove 131a, and thus facilitating the cooperation between the adjustment assembly 130 and the spool valve assembly 140. Additionally, such an arrangement does not need to provide a notch on a body of the adjustment ring, thereby better retaining characteristics such as structural strength and the like of the adjustment ring.
More specifically, each diagonal groove 131a comprises straight transition sections located at two ends and a sloped guiding section located in the middle. The straight transition sections at two ends are used for realizing a transition stage of the adjustment so as to provide a certain degree of buffering for the motion of the guiding rod, while the sloped guiding section in the middle is practically used for adjusting the diffuser flow passage.
Alternatively, three diagonal grooves 131a may be arranged circumferentially and uniformly on the adjustment ring 131, into which three guiding rods 132 are inserted, such that the entire spool valve assembly is driven to reciprocate more uniformly.
With reference to
The spool valve assembly 140 comprises a diffuser ring 141 connected to the guiding rod 132 of the adjustment assembly 130; and the diffuser ring 141 is driven by the guiding rode 132 to pass through the rear wall 150 to reciprocate axially, so as to control a flow area of the flow passage of the diffuser 100.
Specifically, the diffuser ring 141 is provided thereon with a bolt hole 141a which is connected with the guiding rod 132 through a bolt 142. Moreover, a bolt hole plug 143 for filling the bolt hole 141a is provided at the bolt hole 141a on the diffuser ring 141.
Alternatively, an end surface 141b, facing the flow passage of the diffuser 100, of the diffuser ring 141 has arc-shaped lines. As one example, with the limitation of the diffuser ring 141, the flow passage of the diffuser is formed as a flow passage tapering from upstream to downstream. As such, a refrigerant air stream flowing at a high speed may undergo a relatively smooth transition at the flow passage, thereby avoiding strong air stream impingement and effectively reducing working noises.
As another embodiment of the present invention, there is further provided a centrifugal compressor which may comprise any one of the embodiments of the diffuser 100 as described above or an improvement or a combination thereof. Therefore, the centrifugal compressor also has corresponding technical effects, and repeated descriptions thereof are thus omitted herein.
Alternatively, in one embodiment of the centrifugal compressor, the diffuser ring 141 is disposed close to a location downstream of an outlet of an impeller of the centrifugal compressor. As such, the adjustment for the flow area of the refrigerant air stream can be realized at the most initial location of the flow passage of the diffuser, and better effects are provided.
Working principles of one embodiment of the centrifugal compressor will be described below in conjunction with the foregoing drawings. Under the condition of partial load operation, a flow rate of the refrigerant is relatively low, at this time, the compressor may easily enter an unstable state, which is referred to as surge. At this time, if a width of a diffuser inlet is reduced, the flow area of the diffuser is reduced, such that the backflow is effectively inhibited, thereby improving the problem of compressor surge and reducing exhaust pressure pulsation and vibration noise. Specifically, the drive component 110 operates at this time, the crank 121 starts to rotate under the driving of the drive component 110 and thereby drives the connecting rod 122 to move upwards, and the upward motion of the connecting rod 122 further drives the adjustment ring 131 to rotate circumferentially and clockwise with respect to the rear wall 150. At this time, with the cooperation of the diagonal groove 131a on the adjustment ring 131 and the positioning pin 132a on the guide ring 132, the guiding rod is driven to pass through the rear wall 150 and advance axially (along an inward direction of the sheet as shown in
Thereafter, if the machine stops operating or restores to a full load operating state, the flow rate of the refrigerant is normal, and the diffuser flow passage may be fully opened. At this time, the drive component 110 is further started, the crank 121 continues to rotate under the driving of the drive component 110 and drives the connecting rod 122 to move downwards. The downward motion of the connecting rod 122 further drives the adjustment ring 131 to rotate circumferentially and counterclockwise with respect to the rear wall 150. At this time, with the cooperation of the diagonal groove 131a on the adjustment ring 131 and the positioning pin 132a on the guide ring 132, the guiding rod is driven to pass through the rear wall 150 and retreat axially (along an outward direction of the sheet as shown in
The above examples mainly illustrate a diffuser for a centrifugal compressor and a centrifugal compressor having the same according to the present invention. Although only part of the embodiments of the present invention are described, those skilled in the art should be understood that the present invention may be implemented in many other forms without departing from the spirit and scope of the present invention. Therefore, the presented examples and embodiments are considered illustrative rather than limiting. Various modifications and replacements may be included in the present invention without departing from the spirit and scope of the present invention as defined in the appended claims.
Number | Date | Country | Kind |
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201610924490.3 | Oct 2016 | CN | national |
Filing Document | Filing Date | Country | Kind |
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PCT/US2017/057849 | 10/23/2017 | WO | 00 |