JP3553216B2 - Hermetic electric compressor - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a hermetic electric compressor.
[0002]
[Prior art]
One example of a conventional hermetic electric compressor is shown in FIGS.
In FIG. 2, reference numeral 4 denotes a closed container, which comprises a cup-shaped right housing 49, a frame 5, and a cup-shaped left housing 43, which are fastened to each other by bolts 56. An electric motor M is provided inside the right housing 49, and a scroll-type compression mechanism C is provided inside the left housing 43.
[0003]
The electric motor M and the compression mechanism C are linked to each other via a rotary shaft 3.
The right end of the rotary shaft 3 is supported on the right housing 49 via a sub bearing 51, and the left end is supported on the frame 5 via a main bearing 52.
[0004]
The electric motor M includes a rotor Ma and a stator Mb. The rotor Ma is fixed to the rotary shaft 3, and the stator Mb is fixed by press-fitting the right housing 49.
[0005]
The scroll-type compression mechanism C includes a fixed scroll 1, an orbiting scroll 2, and an anti-rotation mechanism 6 such as an Oldham link for preventing the orbiting scroll 2 from rotating.
[0006]
The fixed scroll 1 includes an end plate 11 and a spiral wrap 12 erected on the inner surface thereof. The outer peripheral surface of the end plate 11 is brought into close contact with the inner peripheral surface of the left housing 43 so that the left side of the end plate 11 is provided. A discharge chamber 46 is formed, and a suction chamber 47 is limited on the right side.
[0007]
A discharge port 13 is formed in the center of the end plate 11, and the discharge port 13 is opened and closed by a discharge valve 17.
The fixed scroll 1 is fastened to the frame 5 by screwing bolts 64 into a plurality of legs 15 projecting rightward from the outer periphery of the end plate 11.
[0008]
The orbiting scroll 2 includes an end plate 21 and a spiral wrap 22 erected on the inner surface of the end plate 21, and a drive bush 32 is provided via a slewing bearing 34 in a boss 23 erected on the outer surface of the end plate 21. It is fitted rotatably. An eccentric drive pin 31 eccentrically projecting from the left end of the rotary shaft 3 is slidably fitted in a slide groove 33 formed in the drive bush 32.
[0009]
The outer surface of the end plate 21 is in sliding contact with the left end surface of the frame 5 via the thrust bearing 53.
The rotation preventing mechanism 6 is interposed between the end plate 21 and the frame 5.
[0010]
A plurality of closed spaces 24 are formed by displacing the fixed scroll 1 and the orbiting scroll 2 with each other by a predetermined distance and engaging them at an angle shifted by 180 degrees.
[0011]
When the electric motor M is driven, the orbiting scroll 2 is driven via an orbiting drive mechanism including a rotary shaft 3, an eccentric drive pin 31, a drive bush 32, an orbital bearing 34, a boss 23, and the like. Orbital orbital motion of the orbit of the orbital radius while being prevented from rotating.
[0012]
Then, the gas enters the low-pressure chamber 48 via the suction port 44, and this gas cools the electric motor M in the process of passing through the passage 58 provided on the outer periphery of the stator Mb and the gap 59 between the stator Mb and the rotor Ma, The air is sucked into the closed space 24 through the passage 54 and the suction chamber 47 provided in the frame 5.
[0013]
Then, as the volume of the sealed space 24 decreases due to the revolving orbiting motion of the orbiting scroll 2, the compressed space reaches the central portion while being compressed, passes through the discharge port 13 from the central portion, pushes the discharge valve 17 open, and opens the discharge chamber 46. And then flows out through the discharge port 45 to the outside.
[0014]
Reference numeral 18 denotes a valve presser for limiting the elevation of the discharge valve 17, and is fixed to the outer surface of the end plate 11 of the fixed scroll 1 together with the discharge valve 17 by a bolt 19. Reference numeral 35 denotes a balance weight fixed to the rotary shaft 3.
A boss 65 is formed at the center of the upper right end of the right housing 49, and a glass sealed terminal 62 is attached to the boss 65.
[0015]
At the time of assembling the hermetic electric compressor, as shown in FIGS. 3 and 4, three lead wires 66 connected to the right end of the winding of the stator Mb of the electric motor M are drawn out from the boss portion 65 to the outside. After connecting the receptacle 67 at the tip to the tab 68 inside the glass sealed terminal 62, the lead wire 66 is housed in the right housing 49, and the glass sealed terminal 62 is hermetically fixed to the tip of the boss 65. Then, a receptacle provided at the end of the power line (not shown) is connected to the tab 69 outside the glass sealed terminal 62.
[0016]
A temperature sensor 70 for detecting the temperature of the winding of the stator Mb of the electric motor M is attached to the right end of the winding. It is sent to an internal protector (not shown) via a terminal 73, and when the temperature of the winding rises to a predetermined value or more, the power supply to the electric motor M is cut off to prevent the electric motor M from burning.
[0017]
[Problems to be solved by the invention]
In the above-mentioned conventional hermetic electric compressor, a large gap is formed between the right housing 49 and the lead wire 66 so that the lead wire 66 does not vibrate during operation and does not contact the inner surface of the right housing 49. However, there is a problem that the sealed container 4 becomes large.
[0018]
[Means for Solving the Problems]
SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and the gist of the invention is that a gas sucked from a suction port provided on an end face of a closed container containing a compression mechanism and an electric motor is provided. Is drawn into the compression mechanism through the gap between the rotor and the stator of the electric motor, and protrudes outward from a position deviated to the outer peripheral side of the suction port at the end face of the sealed container. leads from the electric motor to a connecting portion between the boss portion fitted with a glass sealed terminal lead wire of the electric motor is connected, the upper Symbol boss portion and the end face of the closed container provided with a boss portion only a portion corresponding to the drawer path to form a bulging portion that bulges outward, and facing a temperature sensor for detecting the temperature of the windings of the electric motor stator to the boss portion of the winding In the hermetic electric compressor, characterized in that said lead wire was connected to the glass-insulated terminal through the gap between the inner surface and the temperature sensor of the expanded portion attached to the location.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
One embodiment of the present invention is shown in FIG.
A bulging portion 72 bulging outward is formed at a connection portion between the boss 65 corresponding to the position where the lead wire 66 of the electric motor M is pulled out and the right end surface of the right housing 49. It is configured with a smooth curve along the line 66.
[0022]
The temperature sensor 70 of the internal protector for detecting the temperature of the winding is attached to the winding of the stator Mb at a position facing the boss 65.
The other configuration is the same as that of the conventional one shown in FIG. 2 to FIG. 4, and the corresponding members are denoted by the same reference numerals and description thereof will be omitted.
[0023]
Thus, when the receptacle 67 is pulled out from the boss 65 by a predetermined distance as shown in the drawing to connect the receptacle 67 of the lead wire 66 to the tab 68 inside the glass sealed terminal 62, the lead wire 66 Since it passes through the inside, the length of the lead wire 66 can be shortened.
Therefore, when the lead wire 66 is stored in the right housing 49 after the receptacle 67 is connected to the tab 68, the amount of bending of the lead wire 66 in the right housing 49 is reduced.
[0024]
As a result, even when the lead wire 66 vibrates during operation of the hermetic electric compressor, the lead wire 66 does not come into contact with the inner surface of the right housing 49 and does not come into contact with the temperature sensor 70. Thus, the gap between the winding of the stator Mb and the inner surface of the right housing 49 can be reduced, so that the size of the sealed container 4 can be reduced.
[0025]
Since the temperature sensor 70 is disposed at a position facing the boss 65, the temperature sensor 70 does not come into contact with the low-temperature gas drawn into the closed container 4 from the suction port 44, and therefore, the temperature of the stator Mb of the motor M is reduced. The temperature of the winding can be accurately detected.
[0026]
【The invention's effect】
In the present invention, a boss protruding outward is provided on the end face of the sealed container, and a glass sealed terminal to which a lead wire of an electric motor is connected is attached to the boss, and a connection portion between the boss and the end face of the sealed container is provided. A bulging portion bulging outward is formed only in a portion corresponding to a lead wire lead-out path from the electric motor , and the lead wire is sealed with glass through a gap between the inner surface of the bulging portion and the temperature sensor. Since the lead wire is connected to the terminal, the length of the lead wire is shortened, and the amount of bending of the lead wire is reduced. Therefore, when the hermetic electric compressor is operated , even if the lead wire is vibrated, the lead glands bulge. The contact with the inner surface of the part and the temperature sensor can be prevented.
As a result, it is not necessary to form a large gap between the lead wire and the sealed container as in the related art, so that the size of the sealed container can be reduced.
[0028]
A boss protruding outward from a position deviated to the outer peripheral side of the suction port is provided on the end surface of the closed container, and a temperature sensor for detecting the temperature of the winding of the stator of the electric motor is opposed to the boss of the winding. And the lead wire is connected to the glass sealed terminal through the gap between the inner surface of the bulging portion and the temperature sensor, so that even if the lead wire vibrates, it does not come into contact with the temperature sensor and is sucked into the sealed container from the suction port The gas drawn into the compression mechanism through the gap between the rotor and the stator of the electric motor does not come into contact with the temperature sensor, and therefore, the temperature sensor can accurately detect the temperature of the winding of the stator. .
[Brief description of the drawings]
FIG. 1 is a partial longitudinal sectional view corresponding to FIG. 4 and showing one embodiment of the present invention.
FIG. 2 is a longitudinal sectional view of a conventional hermetic electric compressor.
FIG. 3 is a perspective view from an end face of a conventional hermetic electric compressor.
FIG. 4 is a partial longitudinal sectional view taken along the line BB of FIG. 3;
[Explanation of symbols]
49 Sealed container M Electric motor Mb Stator 65 Boss part 62 Glass sealed terminal 66 Lead wire 72 Swelling part 70 Temperature sensor

Claims (1)

Hermetically sealed electric compression in which gas sucked from a suction port provided on an end face of a closed container accommodating a compression mechanism and an electric motor is drawn into the compression mechanism through a gap between a rotor and a stator of the electric motor. A boss portion protruding outward from a position deviated to the outer peripheral side of the suction port on an end face of the closed container, and a glass sealed terminal to which a lead wire of the electric motor is connected is attached to the boss portion. , forming a bulging portion which bulges only a portion corresponding to the lead-out path leads from a by the electric motor a connection portion between the upper Symbol boss portion and the end face of the closed container to outwardly and the A temperature sensor for detecting the temperature of the winding of the stator of the electric motor is mounted at a position facing the boss of the winding, and the lead wire is passed through a gap between the inner surface of the bulging portion and the temperature sensor. Hermetic electric compressor being characterized in that connected to the glass-insulated terminal.

Images