The present invention relates to a mounting structure of a linear compressor in which a cylinder, a piston and a linear motor are installed between a frame and a motor cover, and more particularly, to a mounting structure of a linear compressor which can allow a motor terminal for supplying power to a linear motor to be taken out without interference with the other components, reduce assembly deformation by forming a frame and a motor cover in a symmetric shape, and stably support the linear motor.
Referring to
The structure comprising the cylinder 2, the piston 4 and the linear motor 10 is installed in a shell (not shown) which is a hermetic space, and elastically supported by buffering springs (not shown). A suction valve 6 is installed on a suction hole 4h formed at one end of the piston 4 to communicate with the compression space P. A discharge valve assembly 8 in which a discharge valve 8a is elastically supported by a discharge valve spring 8c inside a discharge cap 8b to be opened and closed is installed at one end of the cylinder 2. Accordingly, suction and discharge of the refrigerant are controlled according to a pressure inside the compression space P.
One end of the cylinder 2 is fixed to the frame 20. The inner stator 12 is fixedly installed on the outer circumference of the cylinder 2. The outer stator 14 is bolt-fastened between the frame 20 and the motor cover 30 with an interval from the outer circumference of the inner stator 12. The permanent magnet 16 is installed between the inner stator 12 and the outer stator 14 with an interval, and connected to the other end of the piston 4.
A supporter (not shown) connected to the other end of the piston 4 is elastically supported in the notion direction by a plurality of springs (not shown) between the motor cover 30 and a main body cover (not shown) installed with an interval from the motor cover 30 in the motion direction.
Accordingly, the cylinder 2, the inner stator 12, the outer stator 14, the frame 20, the motor cover 30 and the main body cover are fixed, and the piston 4, the permanent magnet 16 and the supporter are linearly reciprocated. As the pressure inside the compression space P is varied, the refrigerant is sucked into the compression space P, compressed, and discharged.
As shown in
Since an interval between the frame 20 and the shell (not shown) is small, the motor terminal taking out hole 26 is formed on the side surface of the frame 20 to take out the motor terminal. Therefore, even if vibration is generated, this configuration prevents an electric wire connected to the motor terminal frame being damaged in contact with the shell (not shown) and the frame 20.
The portion around the motor terminal taking out hole 26 of the frame 20 is formed thick for stably supporting the outer stator 14, even though the motor terminal taking out hole 26 is formed at one side of the frame 20.
Except the surface 22 of the frame 20 for supporting the outer stator 14, an unnecessary portion of the frame 20 is removed to reduce the whole volume of the frame 20. In addition, four bolt holes 22h are formed on the frame 20 so that the motor cover 30 can be bolt-fastened to the frame 20. Accordingly, protruding units 22a and 22b are protruded from the frame 20 to secure spaces for forming the bolt holes 22h.
Meanwhile, the motor cover 30 is formed in a metal plate shape. One surface 32 of the motor cover 30 supports the outer stator 14. Bolt holes 32h are formed on the motor cover 30 to correspond to the bolt holes 22h of the frame 20, so that the motor cover 30 can be bolt-fastened to the frame 20.
Preferably, a through hole 34 is formed at the center portion of the motor cover 30, so that the other end of the piston 4 can pass through the through hole 34 for linear reciprocation.
The frame 20 and the motor cover 30 are positioned on the same axle. The motor cover 30 is bolt-fastened to the frame 20 in the motion direction of the piston 4, for supporting and fixing the outer stator 14. The motor terminal is taken out through the motor terminal taking out hole 26 of the frame 20, and connected to a power supply source.
However, in the conventional mounting structure of the linear compressor, since the motor terminal taking out hole 26 is formed at one side of the frame 20 to take out the motor terminal, the frame 20 is not completely symmetric. When the motor cover 30 is bolt-fastened to the frame 20, twist deformation may occur due to the fastening force. Accordingly, the cylinder 2 installed between the frame 20 and the motor cover 30 may be deformed to cause an assembly error and an operation error. Furthermore, when the motor terminal taking out hole 26 is formed at the frame 20, the hole-formed portion of the frame 20 must be formed relatively thick to stably support the outer stator 16. As a result, the manufacturing process is complicated and the material cost is increased.
An object of the present invention is to provide a mounting structure of a linear compressor which can allow take out a motor terminal to be taken out for supplying power to a linear motor without interference with the other components, prevent assembly deformation by forming a frame and a motor cover in a symmetric shape, and stably support the linear motor.
There is provided a mounting structure of a linear compressor comprising: a cylinder for providing a space for compressing a refrigerant; a piston reciprocated inside the cylinder, for compressing the refrigerant; a linear motor including a motor cover and operating the piston; and a frame to which one end of the cylinder is fixed and the motor cover is bolt-fastened, the frame being left-right symmetric or up-down symmetric. By this configuration, the fastening force is uniformly distributed on the frame, thereby minimizing twisting of the frame in assembly.
In another aspect of the present compressor, the frame and the motor cover include corresponding bolt holes, and the bolt holes are up-down symmetric and left-right symmetric. By this configuration, when the frame and the motor cover are fastened by the bolts passing through the bolt holes, respectively, the fastening force is evenly dispersed on the frame and the motor cover, thereby minimizing twisting of the frame and the motor cover.
In another aspect of the present invention, the motor cover is up-down symmetric and left-right symmetric.
In another aspect of the present invention, the mounting structure of the linear compressor includes a motor terminal taken out through the lower portions of the motor cover and the frame. By this configuration, the motor terminal taking out hole is not formed on the motor cover, thereby evenly dispersing the force applied to the motor cover. In addition, this configuration can omit a complicated process of increasing the thickness of the peripheral region of the motor terminal taking out hole to offset reduction of the strength in the region.
In another aspect of the present invention, the motor cover includes a pair of protrusion units which are left-right symmetric, and bolt holes for bolt-fastening the rotor cover to the frame are formed on the protrusion units. By this configuration, the spaces for forming the bolt holes can be prepared without increasing the size of the motor cover.
In another aspect of the present invention, the motor cover is formed in any one of a circular shape and an elliptical shape. By this configuration, the bolt fastening force can be uniformly distributed on the whole surface of the motor cover.
In another aspect of the present invention, the linear motor includes an inner stator, an outer stator and a permanent magnet, and the outer stator includes a coil winding body and a plurality of core blocks. And the mounting structure of the linear compressor further includes a motor terminal installed in the space between the core blocks.
In another aspect of the present invention, the rotor terminal is connected to the coil winding body between the core blocks, and inclined at an angle to a normal line direction of the coil winding body in the connection point. By this configuration, an electric wire connected to the rotor terminal can be taken out through the side surface of the lower structure of the frame without interfering with the lower structure of the frame.
In another aspect of the present invention, the length from the coil winding body to the end of the motor terminal is shorter than the length from the coil winding body to the ends of the core blocks. This configuration serves to prevent an impact applied from a shell to the motor terminal.
In another aspect of the present invention, the mounting structure of the linear compressor further comprises a shell; support springs for supporting a main body frame inside the shell; a terminal for supplying power to the linear compressor; and an electric wire for connecting the rotor terminal to the terminal. The end of the rotor terminal is placed at a distance from the bottom of the shell, and the electric wire is taken out between the support springs and connected to the terminal. By this configuration, the electric wire can be connected to the terminal without interfering with the other structures of the linear compressor.
In accordance with the present invention, in the mounting structure of the linear compressor, the frame is formed in a closed loop shape to be left-right symmetric with the motor cover, and the motor terminal for supplying power to the linear motor is taken out through the relatively large space under the frame without interfering with the other peripheral components. In a state where the cylinder, the piston and the linear motor are mounted between the frame and the rotor, even though the frame and the motor cover are bolt-fastened to each other, deformation by the fastening force is prevented to improve assembly efficiency and operation reliability. As the frame is formed in the closed loop shape, it can stably support the linear motor. Furthermore, the whole manufacturing process can be simplified by emitting the motor terminal taking out hole.
The present invention will now be described in detail with reference to the accompanying drawings.
The frame 50 forms a kind of closed loop. The outer stator 14 is stably supported in the axial direction on one surface 52 of the frame 50. A cylinder mounting hole 54 is formed at the center portion of the frame 50, so that the cylinder 2 can pass through the cylinder mounting hole 54.
Four bolt holes 52h for bolt-fastening the motor cover 30 to the frame 50 are formed at the frame 50 to be up-down symmetric and left-right symmetric. The smaller the volume of the frame 50 is, the more an eddy current loss is reduced. As the frame 50 is smaller than the motor cover 30, it may not have sufficient spaces for forming the bolt holes 52h. In order to obtain the spaces for forming the bolt holes 52h, a pair of protrusion units 52a and 52b are formed on the frame 50 to be left-right symmetric.
One end of the cylinder 2 is inserted into the cylinder mounting hole 54 of the frame 50. A discharge valve assembly 8 is mounted on one end of the cylinder 2. The inner stator 12 is fixed to the outer circumference of the cylinder 2, and the outer stator 14 is fixed to the inner stator with a interval in the radial direction. In a state where one end of the outer stator 14 is supported by the frame 50 and the other end thereof is supported by the motor cover 30, the motor cover 30 is bolt-fastened to the frame 50.
A suction valve 6 is mounted on one end of the piston 4, and the permanent magnet 16 is connected to the other end of the piston 4. One end of the piston 4 is inserted into the cylinder 2, for forming a compression space P in the cylinder 2. The permanent magnet 16 is installed between the inner stator 12 and the outer stator 14 with a gap.
The structure comprising the cylinder 2, the piston 4, the linear motor 10, the frame 50 and the motor cover 30 is supported by buffering springs 55 in the shell 51 and installed on the bottom surface of the shell 51.
The terminal 77 is installed at the shell 51, for supplying external power to the linear motor 10 of the linear compressor. Normally, the terminal 77 includes pins. The electric wire 60a is connected between the linear motor 10 and the terminal 77, for supplying power to the linear motor 10.
The outer stator 14 includes the coil winding body 14a formed by winding a coil in the circumferential direction, and the pair of core blocks 14b formed by laminating a plurality of laminations, and disposed on the coil winding body 14a at intervals in the circumferential direction. The piston 4 is driven by the mutual electromagnetic force induced by the coil winding body 14a. It is thus necessary to install the motor terminal 60 for supplying power to the coil winding body 14a. In addition, the motor terminal 60 is connected to the terminal 77 through the electric wire 60a, for supplying power to the outer stator 14.
When the motor terminal 60 is connected to the coil winding body 14a of the outer stator 14, the motor terminal 60 is inclined at an angle to a normal line direction of the coil winding body 14a in the connection point. Accordingly, the electric wire 60a is not interfered by the structure disposed at the bottom end of the frame 50. On the other hand, the motor terminal 60 is disposed between the core blocks 14b of the outer stator 14. Preferably, the angle of the motor terminal 60 is determined so that the electric wire 60a does not contact one side of the core blocks 14b.
The electric wire 60a of the motor terminal 60 taken out through the space under the frame 50 is connected to the terminal 77 fixed to the inner wall of the shell 51. The terminal 77 is connected to a control box (not shown), for controlling power supply.
As discussed earlier, in accordance with the present invention, the hole for taking out the motor terminal 60 is not formed on the frame 50, so that the frame 50 can form a relatively narrow closed loop which is left-right symmetric. As a result, when the motor cover 30 is bolt-fastened to the frame 50 to generate the fastening force, even though the frame 50 is thin, the left-right symmetry of the frame 50 serves to reduce fastening deformation and stably support the outer stator 14.
Although the preferred embodiments of the present invention have been described, it is understood that the present invention should not be limited to these preferred embodiments but various changes and modifications can be made by one skilled in the art within the spirit and scope of the present invention as hereinafter claimed.
Number | Date | Country | Kind |
---|---|---|---|
10-2006-0004639 | Jan 2006 | KR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/KR2007/000267 | 1/16/2007 | WO | 00 | 3/24/2009 |