阅读说明：本技术 一种压缩机和空调器 (Compressor and air conditioner ) 是由 胡余生 徐嘉 方琪 单彩侠 刘双来 于 2020-07-17 设计创作，主要内容包括：本发明提供一种压缩机和空调器,压缩机包括：静涡旋盘,静涡旋盘上设置有排气口,并且在静涡旋盘的涡卷底部还设置有能够与静涡旋盘的内部压缩腔连通的至少两组泄压孔,至少两组泄压孔围绕排气口分布在不同的周向位置,且每组泄压孔中包括至少一个泄压孔,泄压孔处设置有泄压阀组件,当泄压孔与压缩腔连通时、且当泄压孔中的压力大于预设泄压压力时,泄压阀组件打开以对压缩腔进行泄压。根据本发明能够实现在过压缩工况时,通过增设的泄压孔有效增大卸载通道流通面积,避免附加泄压排气功耗损失,由于泄压孔部分打开部分关闭还能有效减小泵体内无用余隙容积,提升压缩机泵体工作容积效率,提升整机能效。(The invention provides a compressor and an air conditioner, wherein the compressor comprises: the fixed scroll plate is provided with the gas vent on the fixed scroll plate, and still be provided with at least two sets of pressure release holes that can communicate with the inside compression chamber of fixed scroll plate in the scroll bottom of fixed scroll plate, at least two sets of pressure release holes distribute in different circumference positions around the gas vent, and include at least one pressure release hole in every group pressure release hole, pressure release hole department is provided with the relief valve subassembly, when pressure release hole and compression chamber intercommunication, and when pressure in the pressure release hole is greater than preset pressure release pressure, the pressure release valve subassembly is opened in order to carry out the pressure release to the compression chamber. According to the invention, when the compressor is in a compression working condition, the flow area of the unloading channel is effectively increased through the additionally arranged pressure relief hole, the additional pressure relief and exhaust power loss is avoided, the unnecessary clearance volume in the pump body can be effectively reduced due to the partial opening and closing of the pressure relief hole, the working volume efficiency of the pump body of the compressor is improved, and the energy efficiency of the whole machine is improved.)

1. A compressor, characterized by: the method comprises the following steps:

a fixed scroll (5), an exhaust port (5-5) is arranged on the fixed scroll (5), and the bottom of the scroll of the fixed scroll (5) is also provided with at least two groups of pressure relief holes (5-1) which can be communicated with the internal compression cavity of the fixed scroll (5), the at least two groups of pressure relief holes (5-1) are distributed at different circumferential positions around the exhaust port (5-5), each group of the pressure relief holes (5-1) comprises at least one pressure relief hole (5-1), a pressure relief valve component (50) is arranged at the pressure relief hole (5-1), when the pressure relief hole (5-1) is communicated with the compression cavity and the pressure in the pressure relief hole (5-1) is higher than the preset pressure relief pressure, the pressure relief valve assembly (50) opens to relieve pressure in the compression chamber (100).

2. The compressor of claim 1, wherein:

when the movable scroll of the compressor rotates to a specific position in the working engineering of the compressor, the pressure relief holes (5-1) in the multiple groups are as follows: the part of the compression cavity communicated with the part of the pressure relief holes (5-1) is in a relatively high-pressure working condition, so that the part of the pressure relief holes (5-1) are opened to relieve pressure, and the part of the compression cavity communicated with the other part of the pressure relief holes (5-1) is in a relatively low-pressure working condition, so that the other part of the pressure relief holes (5-1) are closed to avoid pressure relief.

3. The compressor of claim 2, wherein:

the pressure relief holes (5-1) are 4 groups, and each group of pressure relief holes (5-1) comprises 4 pressure relief holes (5-1).

4. A compressor according to any one of claims 1 to 3, wherein:

the pressure relief hole (5-1) comprises at least two sections of curve segments, wherein the center of the curvature radius of each point in the two relatively longer curve segments is equal to the center O of a base circle corresponding to the involute of the spiral wrap of the fixed scroll_RIs positioned on the same side of the pressure relief hole (5-1).

5. The compressor of claim 4, wherein:

the centers of curvature radii corresponding to each point of the curves in the two relatively long curve segments fall within a circular distribution area, and the upper limit and the lower limit of the circular distribution area satisfy the following relations:

wherein R is from the center of the radius of curvature to the center of the base circle O_RDistance between, R_bIs the base radius of the vortex involute, α is the generating angle of the vortex involute,

6. The compressor according to any one of claims 1 to 5, wherein:

the vortex shedding mechanism is characterized by further comprising a pressure relief channel (5-3), one end of the pressure relief channel (5-3) is communicated with the pressure relief hole (5-1), the other end of the pressure relief channel is communicated with the outside of the fixed vortex disc (5), and the pressure relief valve assembly (50) is arranged inside the pressure relief channel (5-3).

7. The compressor of claim 6, wherein:

the pressure relief valve assembly (50) comprises a plunger valve body (5-2) and an elastic component (5-4), the plunger valve body (5-2) can move in the pressure relief channel (5-3), one end of the plunger valve body (5-2) is opposite to the pressure relief hole (5-1) and can move to be connected with the pressure relief hole (5-1) to close gas circulation and move to be spaced from the pressure relief hole (5-1) to open a gas circulation channel, the other end of the plunger valve body (5-2) is connected with one end of the elastic component (5-4), and the other end of the elastic component (5-4) is connected with the end of the fixed scroll (5).

8. The compressor of claim 7, wherein:

when the pressure relief hole (5-1) is communicated with the compression cavity (100) and when the pressure in the compression cavity (100) is greater than the exhaust pressure plus the elastic force of the elastic component, the plunger valve body (5-2) moves to open the pressure relief hole (5-1), the gas in the compression cavity (100) is discharged out of the fixed scroll (5) through the pressure relief hole (5-1) and the pressure relief channel (5-3) and is relieved, wherein the pressure in the compression cavity (100) is equal to the pressure in the pressure relief hole (5-1), and the preset pressure relief pressure is equal to the exhaust pressure plus the elastic force of the elastic component.

9. The compressor of claim 7, wherein:

when the pressure relief hole (5-1) is not communicated with the compression cavity (100), or when the pressure relief hole (5-1) is communicated with the compression cavity (100) and the pressure in the compression cavity (100) is smaller than the exhaust pressure plus the elastic force of the elastic component, the plunger valve body (5-2) closes the pressure relief hole (5-1), wherein the pressure in the compression cavity (100) is equal to the pressure in the pressure relief hole (5-1), and the preset pressure relief pressure is equal to the exhaust pressure plus the elastic force of the elastic component.

10. An air conditioner, characterized in that: comprising a compressor according to any one of claims 1-9.

Technical Field

The invention relates to the technical field of compressors, in particular to a compressor and an air conditioner.

Background

Scroll compressors are widely used in the fields of refrigeration air conditioners, heat pumps and the like due to the characteristics of high efficiency, small size, low noise, low vibration, light weight, stable operation and the like. Generally, a scroll compressor comprises a sealed housing, a fixed scroll, a movable scroll, a bracket, a crankshaft, an anti-rotation mechanism and a motor, wherein the molded lines of the movable scroll and the fixed scroll are both spiral, the movable scroll is eccentrically installed relative to the fixed scroll by 180 degrees, and a plurality of crescent-shaped spaces are formed between the movable scroll and the fixed scroll. When the movable scroll plate does non-autorotation rotary translation with the center of the fixed scroll plate as a rotation center and a certain rotation eccentric radius, the outer ring crescent space continuously moves towards the center, at the moment, the refrigerant is gradually pushed to the center space, the volume of the refrigerant is continuously reduced, the pressure is continuously increased until the refrigerant is communicated with the central exhaust hole, and the high-pressure refrigerant is discharged out of the pump body, thereby completing the compression process.

The compressor of the pump body of the scroll compressor is compressed at a constant pressure ratio, namely, the internal pressure ratio is a fixed value and does not change along with the change of working conditions, but the evaporation pressure and the condensation pressure of the air conditioner continuously change along with the temperature of a working environment during operation, namely, the external pressure ratio is a floating change value. When the internal pressure ratio and the external pressure ratio are the same, the compressor and the system requirement reach the optimal matching state, and the additional power loss can not be generated; when the internal pressure ratio is larger than the external pressure ratio, the compressor is over compressed, and the high-pressure gas at the exhaust port expands in an equal volume manner, so that additional power loss is generated. Meanwhile, the motor load is increased abnormally instantly due to over-compression, a large current is caused to break down an enameled wire, the motor is burnt abnormally, and the stress of the scroll plate is increased to cause the problems of reliability such as fragmentation and the like.

Disclosure of Invention

Therefore, the technical problem to be solved by the present invention is to overcome the defects of the prior art that either the exhaust resistance is large or the ineffective clearance volume is large when the compressor exhausts air, thereby providing a compressor and an air conditioner.

In order to solve the above problems, the present invention provides a compressor, comprising:

the fixed scroll comprises a fixed scroll, wherein an exhaust port is arranged on the fixed scroll, at least two groups of pressure relief holes which can be communicated with an internal compression cavity of the fixed scroll are further arranged at the bottom of a scroll of the fixed scroll, the two groups of pressure relief holes are distributed at different circumferential positions around the exhaust port, each group of pressure relief holes comprises at least one pressure relief hole, a pressure relief valve assembly is arranged at each pressure relief hole, and when the pressure relief holes are communicated with the compression cavity and the pressure in the pressure relief holes is larger than preset pressure relief pressure, the pressure relief valve assembly is opened to relieve the compression cavity.

Preferably, when the movable scroll of the compressor rotates to a specific position in the working process of the compressor, the pressure relief holes in the multiple groups have the following shapes: the part of the compression cavity communicated with the pressure relief hole is in a relatively high-pressure working condition, so that the part of the pressure relief hole is opened to relieve pressure, and the part of the compression cavity communicated with the other part of the pressure relief hole is in a relatively low-pressure working condition, so that the other part of the pressure relief hole is closed without relieving pressure.

Preferably, the pressure relief holes are 4 groups, and each group of the pressure relief holes comprises 4 pressure relief holes.

Preferably, the pressure relief hole comprises at least two sections of curved segments, and the center of the curvature radius of each point in the two relatively longer sections of curved segments is equal to the center O of the base circle corresponding to the involute curve of the spiral wrap of the fixed scroll_RIs positioned at the same side of the pressure relief hole.

Preferably, the centers of the curvature radii corresponding to the points of the curves in the two relatively long curve segments fall within the circular distribution area, and the upper and lower limits of the circular distribution area satisfy the following relationship:

wherein R is from the center of the radius of curvature to the center of the base circle O_RDistance between, R_bIs the base radius of the vortex involute, α is the generating angle of the vortex involute,The initial spread angle of the involute of the scroll wrap,The final involute angle of the scroll wrap.

Preferably, the scroll compressor further comprises a pressure relief channel, one end of the pressure relief channel is communicated with the pressure relief hole, the other end of the pressure relief channel is communicated with the outside of the fixed scroll, and the pressure relief valve assembly is arranged in the pressure relief channel.

Preferably, the pressure relief valve assembly includes a plunger valve body and an elastic member, the plunger valve body is movable in the pressure relief passage, one end of the plunger valve body is opposite to the pressure relief hole, and is movable to be connected with the pressure relief hole to close the gas circulation and also movable to be spaced from the pressure relief hole to open the gas circulation passage, the other end of the plunger valve body is connected with one end of the elastic member, and the other end of the elastic member is connected to an end of the fixed scroll.

Preferably, when the pressure relief hole is communicated with the compression cavity and when the pressure in the compression cavity is greater than the exhaust pressure + the elastic force of the elastic component, the plunger valve body moves to open the pressure relief hole, and the gas in the compression cavity is discharged out of the fixed scroll through the pressure relief hole and the pressure relief channel and is relieved, wherein the pressure in the compression cavity is equal to the pressure in the pressure relief hole, and the preset pressure relief pressure is equal to the exhaust pressure + the elastic force of the elastic component.

Preferably, when the pressure relief hole is not communicated with the compression cavity, or when the pressure relief hole is communicated with the compression cavity and the pressure in the compression cavity is smaller than the exhaust pressure plus the elastic force of the elastic component, the plunger valve body closes the pressure relief hole, wherein the pressure in the compression cavity is equal to the pressure in the pressure relief hole, and the preset pressure relief pressure is equal to the exhaust pressure plus the elastic force of the elastic component.

The invention also provides an air conditioner, which comprises the compressor.

The compressor and the air conditioner provided by the invention have the following beneficial effects:

the invention can lead one or more pressure relief holes to be automatically controlled by a pressure relief valve component to open the pressure relief holes for pressure relief because the pressure of a communicated compression cavity is larger than the preset pressure relief pressure when the movable scroll moves to different positions, and lead one or more pressure relief holes to be controlled by the pressure relief valve component to close the pressure relief holes because the pressure in the communicated compression cavity is smaller than the preset pressure relief pressure, thus avoiding the loss of additional pressure relief exhaust power consumption, improving the energy efficiency of the compressor and improving the energy saving effect of an air conditioning system; the unique structure of the invention can automatically and selectively open the corresponding pressure relief holes for pressure relief instead of opening the pressure relief holes completely, and can also effectively reduce the volume of the useless clearance in the pump body, improve the working volume efficiency of the pump body of the compressor and improve the energy efficiency of the whole machine; according to the structure, the plunger valve body and the elastic component are arranged in the pressure relief channel in the fixed scroll, the plunger valve body is used for filling useless space in the unloading circulation channel, the clearance volume caused by the unloading channel can be further effectively reduced, meanwhile, the structure that the exhaust valve plate is arranged on the outer end face of the fixed scroll can be effectively avoided, airflow noise and slapping vibration of the compressor can be effectively reduced, and the reliability level is improved.

Drawings

FIG. 1 is a cross-sectional view of one embodiment of the scroll compressor of the present invention;

FIG. 2 is a schematic view of the opening position of the pressure relief hole according to the present invention;

FIG. 3 is a schematic diagram of a pressure relief vent structure and a limited range of a distribution area of the center of curvature of the pressure relief vent according to the present invention;

FIG. 4 is a schematic view of the fixed scroll vent, relief vent and housing internal communication passages of the present invention;

FIG. 5 is a schematic view of the pressure control mechanism of the present invention with the pressure relief vent closed;

FIG. 6 is a schematic view of the pressure control mechanism of the present invention with the pressure relief vent in an open state.

The reference numerals are represented as:

1. a scroll compressor; 100. a compression chamber; 2. a compression mechanism; 3. a driving portion; 4. a motor; 5. a fixed scroll; 50. a pressure relief valve assembly; 5-1, pressure relief holes; 5-2, plunger valve body; 5-3, a pressure relief channel; 5-4, an elastic component; 5-5, an exhaust port; 6. a movable scroll; 7. a cross slip ring; 8. an upper bracket; 9. a back pressure seal; 10. an air intake duct; 11. an upper cover of the closed container; 12. a sliding bearing; 13. a crankshaft; 14. a main bearing; 15. an exhaust pipe; 16. a primary counterbalance; 17. a rotor; 18. a stator; 19. a secondary counterbalance; 20. a secondary bearing cover plate; 21. a lower bracket; 22. a secondary bearing; 23. a thrust plate; 24. an oil suction pipe; 25. an oil guide sheet; 26. mounting a plate; 27. closing the lower cover of the container; 27. closing the vessel shell.

Detailed Description

As shown in fig. 1-6, the present invention provides a compressor (preferably a scroll compressor) comprising:

the fixed scroll 5 is provided with an exhaust port 5-5, the bottom of a scroll wrap of the fixed scroll 5 is further provided with at least two groups of pressure relief holes 5-1 which can be communicated with an internal compression cavity of the fixed scroll 5, the at least two groups of pressure relief holes 5-1 are distributed at different circumferential positions around the exhaust port 5-5, each group of pressure relief holes 5-1 comprises at least one pressure relief hole 5-1, a pressure relief valve assembly 50 is arranged at the pressure relief hole 5-1, and when the pressure relief holes 5-1 are communicated with the compression cavity and the pressure in the pressure relief holes 5-1 is larger than preset pressure relief pressure, the pressure relief valve assembly 50 is opened to relieve the pressure in the compression cavity 100.

The invention can lead one or more pressure relief holes to be automatically controlled by a pressure relief valve component to open the pressure relief holes for pressure relief because the pressure of a communicated compression cavity is larger than the preset pressure relief pressure when the movable scroll moves to different positions, and lead one or more pressure relief holes to be controlled by the pressure relief valve component to close the pressure relief holes because the pressure in the communicated compression cavity is smaller than the preset pressure relief pressure, thus avoiding the loss of additional pressure relief exhaust power consumption, improving the energy efficiency of the compressor and improving the energy saving effect of an air conditioning system; the unique structure of the invention can automatically and selectively open the corresponding pressure relief holes for pressure relief instead of opening the pressure relief holes completely, and can also effectively reduce the volume of the useless clearance in the pump body, improve the working volume efficiency of the pump body of the compressor and improve the energy efficiency of the whole machine.

As shown in fig. 1, a scroll compressor 1 accommodates a compression mechanism 2 and a drive section 3 in a sealed container. The compression mechanism 2 is composed of a fixed scroll 5, a movable scroll 6 and an anti-rotation mechanism cross slip ring 7, and the driving part 3 is mainly composed of a motor 4 and a crankshaft 13. In the working process of the scroll compressor, the driving part 3 drives the movable scroll 6 to do rotary translation and then to be meshed with the fixed scroll 5 to form a crescent compression cavity. Along with the rotation of the crankshaft 13, a refrigerant enters a suction cavity of a compression mechanism 2 of the compressor through a suction pipe 10, the movable scroll 6 continuously rotates and translates and is always kept in a good meshing state, the suction cavity continuously moves towards the center, the volume is continuously reduced, and the pressure in the cavity is continuously compressed; when the compression is finished and reaches a preset compression ratio, the refrigerant is discharged from an exhaust port 5-5 of the fixed scroll 5, enters the upper space of the sealed container, enters the upper space of the motor 4 and the lower space of the sealed container through an exhaust channel of the fixed scroll 5 and the upper bracket 8, cools the motor 4, is discharged out of the scroll compressor 1 through an exhaust pipe 15, and enters two air conditioners (a condenser or an evaporator).

Preferably, when the movable scroll of the compressor rotates to a specific position in the working process of the compressor, a plurality of groups of pressure relief holes 5-1 have the following structure: the part of the compression cavity communicated with the part of the pressure relief hole 5-1 is in a relatively high-pressure working condition, so that the part of the pressure relief hole 5-1 is opened to relieve pressure, and the part of the compression cavity communicated with the other part of the pressure relief hole 5-1 is in a relatively low-pressure working condition, so that the other part of the pressure relief hole 5-1 is closed to avoid pressure relief. The optimal structure form of the compressor is that as a plurality of groups of pressure relief holes are arranged at different positions along the circumferential direction around the exhaust port, in the moving process of the movable scroll disk (the movable scroll disk can only do translational motion but not do rotation due to the limitation of the cross slip ring), the movable scroll disk makes back and forth contact motion with the scroll of the fixed scroll disk in the compression cavity below the fixed scroll disk in figures 5 and 6, so that part of the pressure relief holes can not be effectively communicated with the compression cavity due to the blocking action of the scroll of the movable scroll disk in the moving process, part of the pressure relief holes are not blocked by the movable scroll disk and are communicated with the compression cavity, when the gas pressure in the compression cavity is greater than the preset pressure relief pressure, the pressure relief valve assembly is opened to effectively relieve the pressure, and only the pressure relief hole corresponding to the over-compression position of the compression cavity in the plurality of groups of pressure relief holes can be automatically and effectively opened to relieve the, the pressure release hole of other positions department and closed, realize the effective pressure release effect of excessive compression operating mode, the too big condition of exhaust resistance can not appear, on the other hand is only that the pressure release hole that is in excessive compression position department is opened, and the pressure release hole of other positions is closed, and can not increase invalid clearance volume, guarantees the volumetric efficiency of compressor, promotes the compressor efficiency.

Preferably, the pressure relief holes 5-1 are 4 groups, and each group of pressure relief holes 5-1 comprises 4 pressure relief holes 5-1. This is the preferred number of pressure relief hole groups and the preferred number of pressure relief holes in each group of pressure relief holes of the present invention, and as shown in fig. 4, the arrangement of the pressure relief hole groups can be made within 360 ° around the exhaust port, which is the most preferred embodiment of the pressure relief structure.

Preferably, the pressure relief hole 5-1 comprises at least two sections of curved segments, and the center of the curvature radius of each point in the two relatively longer sections of curved segments is equal to the center O of the base circle corresponding to the involute curve of the spiral wrap of the fixed scroll_RIs positioned on the same side of the pressure relief hole 5-1. The pressure relief hole is a preferable structure form of the pressure relief hole, and the center of the curvature radius of each point in two relatively long curve segments is connected with the center O of the base circle corresponding to the involute curve of the spiral wrap of the fixed scroll_RThe pressure relief holes are positioned on the same side of the pressure relief hole 5-1, the pressure relief holes can be formed into a waist-shaped (sunken towards the same side direction of the circle center of a base circle) special-shaped hole structure as shown in fig. 3, the structure can ensure that the molded line of the radial outer side of the pressure relief holes of the fixed scroll is matched with the molded line of the movable scroll as much as possible in the process of matching and compressing the movable scroll, and the molded line of the radial outer side of the pressure relief holes of the fixed scroll cannotThe pressure relief holes are distributed on the two sides of the movable scroll in the radial direction, so that the gas blowby on the two sides of the movable scroll is effectively prevented, and the pressure leakage of the compression cavity is prevented.

Preferably, the centers of the curvature radii corresponding to the points of the curves in the two relatively long curve segments fall within the circular distribution area, and the upper and lower limits of the circular distribution area satisfy the following relationship:

wherein R is from the center of the radius of curvature to the center of the base circle O_RDistance between, R_bIs the base radius of the vortex involute, α is the generating angle of the vortex involute,The initial spread angle of the involute of the scroll wrap,

The final involute angle of the scroll wrap.

The pressure relief holes are further preferably arranged, namely the centers of curvature radii of two longer curves of the pressure relief holes are distributed in the range of a circular ring spaced from the center of a base circle by an interval R, so that multiple groups of pressure relief holes can be effectively arranged in the preferred positions, the corresponding positions of the internal compression cavity can be more suitable for performing effective pressure relief at multiple overpressure positions, excessive pressure relief holes can be formed, the pressure relief holes with smaller pressure relief pressure can be blocked, the clearance volume can not be too large, and the problems of excessive pressure relief resistance and excessive clearance volume can be effectively solved.

The structure of the pressure relief hole is shown in figures 2 and 3, and specifically, the static disc is provided with a pressure relief hole 5-1 which is arranged at the bottom of the vortex disc scroll. As shown in fig. 4, the pressure relief vent has a special hole structure, and has a closed flow hole formed by multiple curves, and the pressure relief hole communicates the compression chamber with the inner space of the casing. At the same time, the special-shaped hole has two sections (L)₁、L₂) Center (O) of curvature radius corresponding to each point of longer curve_1-1、O_1-2…O_1-iAnd O_2-1、O_2-2…O_2-iWherein i is a natural number) is positioned at one side of the base circle center OR corresponding to the involute of the scroll wrap, the centers of curvature radii corresponding to each point of the curve fall within a circular ring distribution area, and the upper limit and the lower limit of the circular ring area satisfy the following relations:wherein R is_bIs the base radius of the vortex involute, α is the generating angle of the vortex involute,

The initial spread angle of the involute of the scroll wrap,

The final involute angle of the scroll wrap.

Preferably, the scroll compressor further comprises a pressure relief channel 5-3, one end of the pressure relief channel 5-3 is communicated with the pressure relief hole 5-1, the other end of the pressure relief channel 5-3 is communicated with the outside of the fixed scroll 5, and the pressure relief valve assembly 50 is arranged inside the pressure relief channel 5-3. The pressure relief channel is a further preferable structure form of the invention, namely, the arrangement of the pressure relief channel can ensure that the pressure relief channel plays a role in communicating the pressure relief hole and discharging overpressure gas, and can effectively arrange a pressure relief valve assembly in the pressure relief channel.

Preferably, the pressure relief valve assembly 50 includes a plunger valve body 5-2 and an elastic member 5-4 (preferably a spring), the plunger valve body 5-2 is movable in the pressure relief passage 5-3, one end of the plunger valve body 5-2 is opposite to the pressure relief hole 5-1, and is movable to be connected to the pressure relief hole 5-1 to close the gas flow passage and also movable to be spaced from the pressure relief hole 5-1 to open the gas flow passage, the other end of the plunger valve body 5-2 is connected to one end of the elastic member 5-4, and the other end of the elastic member 5-4 is connected to an end of the fixed scroll 5. The plunger valve body can effectively move in the pressure relief channel to open and close the pressure relief channel, the elastic part is used for generating elastic force and providing a certain preset pressure relief pressure effect, the elastic part is compressed to press the plunger valve body on the lower end face of the pressure relief channel in an initial state, and when the pressure in the pressure relief hole is increased and the pressure relief pressure is greater than the preset pressure relief pressure, the plunger valve body is pushed to move upwards, so that the pressure relief channel is opened to perform pressure relief and exhaust.

Preferably, when the pressure relief hole 5-1 is communicated with the compression chamber 100 and when the pressure in the compression chamber 100 is greater than the exhaust pressure + the elastic force of the elastic member, the plunger valve body 5-2 moves to open the pressure relief hole 5-1, and the gas in the compression chamber 100 is discharged out of the fixed scroll 5 through the pressure relief hole 5-1 and the pressure relief channel 5-3 to be relieved, wherein the pressure in the compression chamber 100 is equal to the pressure in the pressure relief hole 5-1, and the preset pressure relief pressure is equal to the exhaust pressure + the elastic force of the elastic member. The operation condition and the working condition that the pressure relief hole is opened are the operating condition and the working condition that the pressure relief hole is opened, namely based on the pressure relief hole structure, the pressure control structure of the invention is as shown in figure 6, when the pressure in the compression cavity is greater than the exhaust pressure plus the force of the elastic component 5-4, the plunger valve body 5-2 moves upwards, the special-shaped pressure relief hole 5-1 is opened, at the moment, the compression cavity is communicated with the exhaust high-pressure side through the pressure relief hole 5-1 and the pressure relief channel 5-3, and high-pressure gas in the compression cavity is unloaded into the shell; and the excessive compression of the compressor is avoided, and the additional power consumption of the constant volume expansion of the high-pressure gas at the exhaust port is eliminated.

As shown in fig. 5, preferably, when the pressure relief hole 5-1 is not communicated with the compression cavity 100, or when the pressure relief hole 5-1 is communicated with the compression cavity 100 and the pressure in the compression cavity 100 is smaller than the exhaust pressure + the elastic force of the elastic member, the plunger valve body 5-2 closes the pressure relief hole 5-1, wherein the pressure in the compression cavity 100 is equal to the pressure in the pressure relief hole 5-1, and the preset pressure relief pressure is equal to the exhaust pressure + the elastic force of the elastic member. When the pressure in the compression cavity is smaller than the exhaust pressure plus the force of the elastic component 5-4, the plunger valve body 5-2 cannot move, the special-shaped pressure relief hole 5-1 is closed, and the compression cavity is not communicated with the exhaust high-pressure side in the shell at the moment; at the moment, the plunger valve body fills up useless space in the unloading channel, so that the invalid clearance volume caused by the unloading channel is reduced, the useless clearance volume is reduced, the volumetric efficiency of the pump body is improved, and the complete machine energy efficiency of the compressor is improved.

The invention also provides an air conditioner, which comprises the compressor. The bottom of the vortex disk is equipped with a pressure-relief discharge hole, said discharge hole is made into the form of special-shaped hole structure, and is formed from several sections of curves, and is characterized by that the centre of curvature radius correspondent to two sections of longer curves of said special-shaped hole and the centre of base circle correspondent to involute of vortex tooth are positioned in same side, and the curvature centre is fallen on the same sideWithin the area of the circular ring.

Based on the characteristics, the pressure control structure is arranged on the scroll plate and comprises the spring and the plunger valve body, namely, the plunger valve body is used for filling up the useless space in the unloading flow channel and reducing the clearance volume caused by the unloading channel. When the pressure in the compression cavity is greater than the exhaust pressure plus the spring force, the plunger valve body mechanism is opened, and the special-shaped pressure relief hole is communicated with the exhaust high-pressure side; when the pressure in the compression cavity is smaller than the exhaust pressure and the spring force, the plunger valve body mechanism is closed, the special-shaped pressure relief hole is in a closed state, and the over-compression loss of the compressor is effectively avoided.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention. The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.