JP2941489B2 - Scroll compressor - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a scroll compressor, and more particularly to a scroll compressor which is used for a refrigerator such as an air conditioner or a refrigerator and which has a simple structure and is suitable for improving performance and reliability.
Compressor.

[0002]

2. Description of the Related Art In recent years, a scroll compressor has been employed in place of a rotary compressor in order to reduce vibration and noise of the compressor. In the scroll compressor, the refrigerant is injected into the compression chamber in the middle of compression (hereinafter, referred to as injection) to cool the compression mechanism, thereby improving performance and reliability. I have. Incidentally, those relating to the injection structure in a scroll compressor include, for example, Japanese Utility Model Application Laid-Open No. 56-850.
No. 87.

[0003]

Generally, since a scroll compressor has two opposing compression chambers, it is ideal to perform injection at two opposing positions in consideration of pressure balance. That is, the refrigerant flowing into the compression chamber from the refrigeration cycle through the injection passage is:
Although the pressure in the compression chamber is increased, if the injection is performed simultaneously on the opposing compression chambers, no pressure imbalance occurs. The pressure imbalance makes the movement of the turning scroll unstable and causes a reduction in the effect of improving the performance and reliability by the injection.

FIG. 7 is a plan view of a conventional fixed scroll having an injection hole, and FIG. 8 is a sectional view taken along the line BB of FIG. 7 and 8, reference numeral 11 denotes a suction port;
Indicates a discharge hole. In a scroll compressor having a discharge hole 13 in the fixed scroll, the fixed scroll is used.
Since the discharge hole 13 is provided substantially at the center of the nozzle, in order to perform injection at two opposing positions, FIGS.
It is necessary to connect an injection pipe to each of the two injection holes as shown in FIG. Furthermore, the closed container also requires two sealed structures. Therefore, there has been a problem that the number of parts increases and processing and assembly become complicated.

The present invention has been made to solve the above problems. A first object of the present invention is to provide a scroll compressor having a simple structure and capable of performing injection effectively. It is a second object of the present invention to provide a scroll compressor capable of effectively performing injection with a simple structure while maintaining pressure balance.

[0006]

In order to achieve the first object, a first aspect of the scroll compressor according to the present invention comprises an electric motor and a crankshaft connected to the electric motor in a closed container. And the compression mechanism unit connected by
In the compression mechanism section, two scrolls each having a spiral wrap standing upright on the base plate mesh with the wraps to form a compression chamber, and the revolving scroll related to one of the scrolls rotates by itself. in the blocked state, the other scroll - is configured to form a pivot movement relative to Le, the fixed scroll - - fixed scroll according to Le scroll having a discharge hole of the compressed gas in Le - in Le compressor, wherein For fixed scroll base plate
It is opened and closed by the swiveling motion of the swing scroll wrap,
Opening period due to the turning movement of the turning scroll wrap
Two injection holes provided in the
Serial fixed scroll - provided Le stand the plate, these indicators E click
Hole which connects the fixed hole and the fixed scroll base plate side
It is provided with.

In order to achieve the second object,
The configuration of the second invention according to the scroll compressor of the present invention is as follows.
An electric motor and a motor connected to the electric motor by a crankshaft in a closed container.
And a compression mechanism section.
Each have a spiral wrap that stands upright on the base plate
Two scrolls mesh with the wrap with each other to form a compression chamber
And the turning scroll for one of the scrolls is automatically
With the rotation stopped, the fixed scroll for the other scroll
A swing motion with respect to the crawler;
Scroll with compressed gas discharge holes in fixed scroll
In the compressor, the swivel scroll is attached to the fixed scroll base plate.
Different compression chambers depending on the swing motion of the wrap
An injection hole opening in the fixing scroll
These injection holes are provided in the base plate and
A hole communicating with the side of the fixed scroll base plate;
The injection hole is for turning the scroll scroll wrap.
Movement allows simultaneous opening of the respective compression chambers
Open for one compression chamber and closed for the other
And a period in which each of the compression chambers is closed.
It is opened in the position where it does .

Further, in order to achieve the second object, according to a third aspect of the invention, there is provided a scroll compressor, comprising: a motor and a crankshaft connected to the motor in a closed container.
And a compression mechanism unit,
Each structure has a spiral wrap that stands upright on the base plate.
Two scrolls engage the wrap with each other and
A swivel scroll that forms a constriction chamber and is related to one of the scrolls
In a state in which rotation is prevented, and the other scroll is fixed.
It is configured to make a turning motion with respect to a constant scroll,
A scroll having a fixed gas discharge hole in the fixed scroll.
In the fixed scroll base plate in the scroll compressor.
Different pressure due to the turning movement of the scroll scroll wrap
An injection hole that opens into the contraction chamber and the fixed scroll
-Installed in the base plate, these injection holes and the front
And a hole communicating with the fixed scroll base plate side.
The injection hole is provided in the swivel scroll wrap.
Simultaneous opening in each of the compression chambers by swiveling motion
Open in one compression chamber and closed in the other compression chamber
Opened at a position where the respective compression chambers communicate with each other
It was done.

Further, in order to achieve the second object, a fourth aspect of the invention relates to a scroll compressor of the present invention , wherein an electric motor and a crankshaft are connected to the electric motor in a closed container.
And a compression mechanism unit,
Each structure has a spiral wrap that stands upright on the base plate.
Two scrolls engage the wrap with each other and
A swivel scroll that forms a constriction chamber and is related to one of the scrolls
In a state in which rotation is prevented, and the other scroll is fixed.
It is configured to make a turning motion with respect to a constant scroll,
A scroll having a fixed gas discharge hole in the fixed scroll.
In the fixed scroll base plate in the scroll compressor.
It opens and closes by the turning movement of the scroll scroll wrap, and this turning
Different opening periods due to scroll wrap swiveling motion
Two injection holes provided in the
These injections are installed in the scroll base plate.
A hole communicating the hole with the side of the fixed scroll base plate;
A check valve is provided between the injection hole and the refrigeration cycle.
It is a thing .

[0010]

The operation of each of the above technical means is as follows. In the first invention, since two injection holes can be connected by one lateral hole, only one injection pipe is required, and therefore, the number of parts is small,
Processing and assembly are also simplified. In the second invention, the operation of the first invention is provided, and the two injection holes are simultaneously opened in the opposing compression chambers, and when the injection hole that is closed first is closed, or immediately after the injection hole is closed, Since the opposing compression chambers communicate with the discharge holes, that is, the opposing compression chambers communicate with each other, pressure imbalance can be suppressed.

In the third invention, the two injection holes are simultaneously opened in the opposing compression chambers, and
A check valve is provided in the injection passage connecting the compression chamber and the refrigeration cycle, and the injection passage is simultaneously closed by the function of the check valve, so that the injection can be performed without impairing the balance of the pressures in the opposing compression chambers. Can be. In the fourth invention, since the check valve is built in the fixed scroll, in addition to the operation of the third invention, the space from the injection hole to the check valve is reduced when the injection is not performed. It is possible to reduce the performance deterioration due to the re-expansion of the compressed gas.

[0012]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will now be described with reference to FIGS.
This will be described with reference to FIG. First, the general structure of a scroll compressor will be described with reference to FIG. FIG. 1 is a longitudinal sectional view of a scroll compressor according to one embodiment of the present invention, including a connection with a basic refrigeration cycle. In the scroll compressor shown in FIG. 1, a compression mechanism section is accommodated in an upper part in an airtight container 1, and a motor section is accommodated in a lower part. The compression mechanism includes a fixed scroll 2, a revolving scroll 3, a frame 4, a crankshaft 5, and an Oldham ring 6 as main components. A suction pipe 10 connected to an external cycle is press-fitted into a suction port 11 of the fixed scroll 2 (see FIG. 2 described later).

The electric motor section includes a stator 8 and a rotor 9. The stator 8 is fixed in the closed casing 1 by shrink fitting, and the rotor 9 is press-fitted into the crankshaft 5. Fixed. The outer periphery of the frame 4 is fixed to the closed casing 1 and has a bearing for receiving the rotation of the crankshaft 5. The fixed scroll 2 is fastened to the frame 4 by bolts 21.

The fixed scroll 2 comprises a base plate 2a and a spiral wrap 2b standing upright on the base plate 2a, and the revolving scroll 3 stands up on the base plate 3a and the base plate 3a. Spiral wraps 3b, each of which has a wrap portion 2
b and 3b are engaged with each other inwardly to
(General term for 12a and 12b). An eccentric portion 5a of the crankshaft 5 is rotatably fitted into the boss portion of the revolving scroll 3, and an Oldham ring 6 slides in a groove (not shown) of the base plate 3a and a groove 4a of the frame 4. It is movably disposed and functions as rotation preventing means for the turning scroll 3. Reference numeral 7 denotes a bearing that supports a lower portion of the crankshaft 5.

The general operation of such a scroll compressor will be described. The rotor 9 receives the torque from the stator 8 to rotate the crankshaft 5, and the revolving scroll 3 rotates eccentrically (revolves) without rotating by the action of the Oldham ring 6. Due to the revolution of the orbiting scroll 3, the refrigerant gas sucked from the suction port 11 of the fixed scroll 2 through the suction pipe 10 is gradually compressed in the compression chamber 12, and
3 (see FIGS. 2 and 4 described later) into the closed container 1. The released refrigerant gas cools the motor unit and is supplied from the discharge pipe 18 to the external cycle.

Next, embodiments of the first to fourth aspects of the present invention will be described with reference to FIGS. First, a conventional technique to be compared with each embodiment of the present invention will be described with reference to FIGS. FIG. 9 is an explanatory diagram showing an opening period of an injection hole according to the related art, and FIG. 10 is a finger pressure diagram showing an opening period of the injection hole according to the related art. FIG.
In (a), two injection holes are simultaneously open, (b) is a state in which two injection holes are closed at the same time, and a white arrow indicates that a transition from the opening (a) to the closed (b) is performed. The transition from the closing (b) to the opening (a) is indicated by hatched arrows. 2b
Is a fixed scroll wrap, and 3b is an orbiting scroll wrap. The revolving direction of the orbiting scroll is counterclockwise as shown by the solid line arrow in FIG.

In the prior art, as shown in FIGS. 9 (a) and 9 (b), two opposing injection chambers simultaneously open and close two opposing compression chambers 12a and 12b. An injection hole was provided at the position. At this time, as shown in FIG. 10, the opening period α _{1 of one} injection hole, the average pressure P ₁ during the opening period, and the opening period α ₂ of the other injection hole, the average pressure P ₂ during the opening period are: , Respectively. However, since the positions of the two injection holes are almost opposite to the discharge holes 13, it is necessary to connect an injection pipe to each of the two injection holes as shown in FIG.

Embodiment 1 FIG. 2 is a plan view of a fixed scroll having an injection hole in the scroll compressor of FIG. 1, and FIG. 3 is a sectional view taken along the line AA of FIG. In the first invention (first embodiment) of the scroll compressor shown in FIG. 1, two injection holes 14a and 14b are provided in the base plate 2a of the fixed scroll 2 as shown in FIGS. The two injection holes 14a and 14b are communicated with a lateral hole 15 that does not communicate with the discharge hole 13. This allows
If one injection pipe 16 is connected to the side hole 15 as shown in FIG. 1, an injection passage can be formed. According to the present embodiment, a scroll having a simple structure and capable of performing injection effectively.
Compressor can be provided.

[Embodiment 2] FIG. 4 is an explanatory view showing an opening period of an injection hole in the scroll compressor of FIG. 1, and FIG. 5 is an injection according to a second embodiment of the present invention based on the example of FIG. FIG. 4 is an acupressure diagram showing a period during which a hole is opened. In FIG. 4, (a)
Shows the state at the beginning of the opening of the injection hole, (b) shows the state at the end of the opening of the injection hole 14b, and (c) shows the state at the end of the opening of the injection hole 14a. The transition to each state is indicated by white arrows and hatched arrows. The revolving direction of the orbiting scroll is counterclockwise as shown by the solid line arrow in FIG. The acupressure diagram in FIG. 5 shows the crankshaft rotation angle (rad) on the horizontal axis and the pressure on the vertical axis.
Suction pressure Ps, discharge pressure Pd, injection pressure P
The change in pressure such as inj is shown.

The second invention (second embodiment) in the scroll compressor shown in FIG. 1 has the function of the first embodiment described above, and has two injection holes as shown in FIG. The compression chambers 12a, 14a, 14b
12b at the same time, and then, as shown in FIG.
When the previously closed injection hole 14b closes, or immediately after closing as shown in FIG. 4C, the opposing compression chambers 12a and 12b communicate with the discharge hole 13, that is, the opposing compression chambers 12a and 12a. 12b communicates with each other. Therefore, one compression chamber 12a
Injection into both compression chambers at the same time, no pressure imbalance occurs.

In the acupressure diagram, as shown in FIG. 5, the opening period α ₁ of the injection hole 14a, the average pressure P ₁ during the opening period, the opening period α ₂ of the injection hole 14b, the average pressure P ₂ during the opening period. Are different. However, when the injection hole 14b is closed, since the compression chambers 12a and 12b are in communication, the injection hole 14b is closed after the injection hole 14b is closed.
Until the closing of a, the injection holes 14a inject both compression chambers. This allows
The opening period of the two injection holes and the average pressure during the opening period are equal to each other, and are equal to α ₁ and P ₁ . Therefore, the injection can be performed with a simple structure while maintaining the pressure balance.

FIG. 12 shows the effect of the injection according to the second invention. FIG. 12 is a diagram showing the effect of the injection. FIG. 12 shows the operating pressure ratio (P
d / Ps), the vertical axis shows the discharge gas temperature difference (deg) and the coefficient of performance ratio. The solid line indicates the presence of the injection and the broken line indicates the absence of the injection. By performing the injection, the effect of improving the coefficient of performance by about 6% and the effect of reducing the temperature of the discharge gas by about 20 deg were obtained. As described above, according to the second embodiment, it is possible to provide a scroll compressor which can maintain the pressure balance, has a simple structure, and can perform the injection effectively.

Embodiment 3 Next, in a third invention (third embodiment), two injection holes are simultaneously opened to the opposing compression chambers, and as shown in FIG. A check valve 17a is provided in an injection passage connecting the refrigeration cycle to 12a and 12b. Since the injection passage is simultaneously closed by the function of the check valve 17a, the injection can be performed without impairing the pressure balance between the two opposing compression chambers 12a and 12b.

FIG. 6 is an acupressure diagram showing the opening period of the injection hole according to the third embodiment of the present invention. FIG.
As shown in the acupressure diagram of FIG.
The opening period of 14b (the period during which the injection passage communicates) α ₁ , α ₂ , the average pressures P ₁ , P during the opening period
₂ is equal to each. Therefore, the injection can be performed with a simple structure without impairing the pressure balance.

Embodiment 4 Next, FIG. 11 is a sectional view of a main part showing a check valve built-in portion of a fixed scroll according to a fourth embodiment of the present invention. In the fourth invention (fourth embodiment), as shown in FIG. 11, the check valve 17b is built in the fixed scroll 2. That is, the horizontal hole 15 in the base plate 2a of the fixed scroll 2 is provided.
Check valve 1 is connected to the connection between
7b is attached. According to the fourth embodiment, in addition to the operation of the third embodiment, when the injection is not performed, the check valve 1 is inserted through the injection holes 14a and 14b.
Performance degradation due to the re-expansion of the compressed gas exerted by the space up to 7b can be reduced.

[0026]

As described above in detail, according to the first aspect, it is possible to provide a scroll compressor having a simple structure and capable of performing injection effectively. According to the second to fourth inventions,
It is possible to provide a scroll compressor capable of effectively performing an injection with a simple structure while maintaining a pressure balance.

[Brief description of the drawings]

FIG. 1 is a longitudinal sectional view of a scroll compressor according to one embodiment of the present invention.

FIG. 2 is a plan view of a fixed scroll having an injection hole in the scroll compressor of FIG.

FIG. 3 is a sectional view taken on line AA of FIG. 2;

FIG. 4 is an explanatory diagram showing an opening period of an injection hole in the scroll compressor of FIG. 1;

FIG. 5 is an acupressure diagram showing an opening period of an injection hole according to a second embodiment of the present invention.

FIG. 6 is an acupressure diagram showing an opening period of an injection hole according to a third embodiment of the present invention.

FIG. 7 is a plan view of a conventional fixed scroll having an injection hole.

FIG. 8 is a sectional view taken along the line BB of FIG. 7;

FIG. 9 is an explanatory diagram showing an opening period of an injection hole according to a conventional technique.

FIG. 10 is an acupressure diagram showing an opening period of an injection hole according to a conventional technique.

FIG. 11 is a cross-sectional view of a main part showing a check valve built-in portion of a fixed scroll according to a fourth embodiment of the present invention.

FIG. 12 is a diagram showing the effect of injection.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Closed container 2 Fixed scroll 3 Rotating scroll 2a, 3a Base plate 2b, 3b Wrap 5 Crankshaft 6 Oldham ring 8 Stator 9 Rotor 12a, 12b Compression chamber 13 Discharge hole 14a, 14b Injection hole 15 Side hole 16 Injection pipe 17a, 17b Check valve

──────────────────────────────────────────────────続 き Continuation of front page (56) References JP-A-58-148290 (JP, A) JP-A-62-3184 (JP, A) JP-A-58-170879 (JP, A) 242494 (JP, A) JP-A-4-12183 (JP, A) (58) Fields investigated (Int. Cl. ⁶ , DB name) F04C 18/02 311 F04C 29/04

Claims (5)

(57) [Claims] An electric motor and a compression mechanism connected to the electric motor by a crankshaft are housed in a closed container, wherein each of the compression mechanisms has a spiral wrap standing upright on a base plate. The two scrolls are engaged with each other to form a compression chamber, and the rotating scroll of one of the scrolls is prevented from rotating, while the fixed scroll of the other scroll is blocked. A fixed scroll having a discharge hole for compressed gas in the fixed scroll , wherein the fixed scroll base plate is provided with the turning scroll wrap.
It opens and closes by swiveling motion,
Two apertures provided at different positions during the opening
An injection hole is provided in the fixed scroll base plate.
Communication hole and the fixed scroll base plate side
A scroll compressor comprising a hole and a hole . 2. A closed casing containing an electric motor and a compression mechanism connected to the electric motor by a crankshaft, wherein each of the compression mechanisms has a spiral wrap standing upright on a base plate. The two scrolls mesh with the wraps to form a compression chamber, and the rotating scroll of one scroll is prevented from rotating, while the fixed scroll of the other scroll is blocked. A scroll compressor having a discharge hole for compressed gas in the fixed scroll, wherein the fixed scroll base plate is rotated by the swivel motion of the scroll scroll wrap, respectively. An injection hole that opens to a different compression chamber; and a hole that is provided in the fixed scroll base plate and communicates the injection hole with the fixed scroll base plate side. The injection holes are opened by the swirling scroll wrap at the same time in the respective compression chambers, are opened in one of the compression chambers, and are closed by the other compression chambers, and the respective compression chambers are opened. A scroll compressor which is opened at a position having a closed period. 3. A closed casing containing an electric motor and a compression mechanism connected to the electric motor by a crankshaft, wherein each of the compression mechanisms has a spiral wrap standing upright on a base plate. The two scrolls mesh with the wraps to form a compression chamber, and the rotating scroll of one scroll is prevented from rotating, while the fixed scroll of the other scroll is blocked. A scroll compressor having a discharge hole for compressed gas in the fixed scroll, wherein the fixed scroll base plate is rotated by the swivel motion of the scroll scroll wrap, respectively. An injection hole that opens to a different compression chamber; and a hole that is provided in the fixed scroll base plate and communicates the injection hole with the fixed scroll base plate side. The injection holes are simultaneously opened in the respective compression chambers by the swiveling motion of the swirling scroll wrap, and the respective compression chambers are opened in one compression chamber and closed in the other compression chamber. A scroll compressor characterized in that it is opened in a communicating position. 4. An electric motor and a compression mechanism connected to the electric motor by a crankshaft are housed in a closed container, wherein each of the compression mechanisms has a spiral wrap standing upright on a base plate. The two scrolls mesh with the wraps to form a compression chamber, and the rotating scroll of one scroll is prevented from rotating, while the fixed scroll of the other scroll is blocked. A fixed scroll having a compressed gas discharge hole in the fixed scroll, wherein the fixed scroll base plate is opened and closed by the swirling movement of the swirled scroll wrap. And two injection holes provided at positions where opening periods due to the turning movement of the turning scroll wrap are different; and provided in the fixed scroll base plate. Serial fixed scroll - a hole communicating the Le base plate side, characterized in that a check valve between said injection hole and the refrigeration cycle scroll - Le compressor. 5. The scroll compressor according to claim 4, wherein said check valve is provided in a hole communicating between said injection hole and said fixed scroll base plate side.