Title of Invention

HEAD COVER STRUCTURE OF HERMETIC MOTOR-DRIVING TYPE COMPRESSOR.

Abstract

There is disclosed a cylinder head cover structure of a hermetic motor-driving type compressor, comprising a front head cover (30) having a low-pressure side (30b) through which refrigerant is sucked; and a high-pressure side (30t) through which compressed refrigerant flows, lthe low pressure side and the high pressure side being divided by a first enclosure wall formed therebetween, and a rear head cover (40) joined lto a rear surface of the front head cover (30) and having a low-pressure side (40b) and a high-pressure side (40t) which are divided by a second enclosure wall, wherein an engaging groove and protrusion are formed on the front head cover so as to mate with a corresponding protrusion and groove portion formed on a suction muffler.

Full Text

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hermetic motor-driving type compressor, and in particular to a head cover structure of a hermetic motor-driving type compressor which is capable of preventing leakage of a refrigerant gas at a high- pressure side and a low-pressure side and precisely combining a suction muffler to a head cover with reduced production costs. 2. Description of the Prior Art Generally, a compressor pressurizes a fluid such as air and a refrigerant gas, etc. A compressor includes a driving unit placed inside a closed container and generating a driving force and a compressing unit being transmitted the driving force from the driving unit, sucking and compressing a refrigerant gas. In the compressor, when a driving force is generated in the driving unit by being applied power, the driving force is transmitted to the compressing unit, the compressing unit sucks a gas, compresses and discharges it. In addition, a head cover structure used for the conventional hermetic motor-driving type compressor is divided into a high-pressure side and a low- pressure side in which a working fluid flows by an enclosure wall, and a suction muffler is installed at the low-pressure side. As depicted in Figure 1, a general hermetic motor-driving type compressor includes a closed container 1 formed by combination of an upper container 1a and a lower container 1b, and a motor driving unit and a compressing unit are formed inside the closed container 1. The driving unit includes a stator 3, a plurality of springs 2s fixedly combined between the stator 3 and the bottom surface of the closed container 1 and elastically supporting the stator 3, and a rotator 4 placed so as to have a certain distance from the stator 3. In the meantime, the compressing unit includes a hollow crank shaft 5 inserted-combined to the center of the rotator 4, a frame 2 combined between the upper portion of the crank shaft 5 and the upper inner circumference of the rotator 4, a balance weight 5c combined to the end of the crank shaft 5, an eccentric pin 5b installed at the upper surface of the balance weight 5c, a connecting rod 8 combined to a piston 7 slide-inserted into a cylinder 6 formed at the upper surface of the frame 2 and converting a rotation motion of the crank shaft 5 into a linear motion of the piston 7, a valve assembly 9 combined so as to cover a certain surface of the cylinder 6, and a head cover 10 combined to the valve assembly 9. In the meantime, a piece 5e is inserted into the lower portion of the hollow crank shaft 5 in order to suck up oil L from the lower surface of the closed container 1, the sucked oil L is scattered in all internal spaces of the compressor through an oil channel 5a connected from the upper portion of the piece 5e to the internal space of the eccentric pin 5b. And, the working fluid is supplied to a compressing chamber 6" of the cylinder 6 through a certain side of the head cover 10, a certain side of a suction muffler 11 reducing noise in suction is combined to the head cover 10, and the other side of the suction muffler 11 is connected to a suction pipe 12 suctioning the working fluid and a discharge pipe 13 discharging the compressed working fluid. Moreover, the suction muffler 11 is made of a plastic material. Hereinafter, the head cover structure of the conventional hermetic motor- driving type compressor will be described with reference to accompanying Figure 2. As depicted in Figure 2, by an enclosure wall 10p, the internal space of the head cover 10 is divided into a lower pressure part 10b sucking a low-pressure working fluid by being mounted the suction muffler 11 and a high-pressure part 10t discharging the working fluid compressed in the compressing chamber 6". And, a gasket 13 and a valve plate 14 of the valve assembly 9 are orderly combined between the head cover 10 and the cylinder 6. In addition, the gasket 13 prevents leakage of the working fluid between the head cover 10 and the valve plate 14, particularly it prevents the leakage of the working fluid between portions corresponded to the upper surface 10q of the enclosure wall 10p and the valve plate 14. Hereinafter, the operations of the conventional hermetic motor-driving type compressor and the head cover will be described. In the conventional hermetic motor-driving type compressor, when power is applied, the rotator 4 rotates by the electromagnetic interaction between the rotator 4 and the stator 3, and the crank shaft 5 constructed so as to be one- bodied with the rotator 4 also rotates. By the operation, the eccentric pin 5b formed to be offset from a center of rotation of the crank shaft 5 performs the rotation circle motion, the connecting rod 8 connected to the eccentric pin 5b works together, and the piston 7 performs a linear reciprocating motion. By the linear reciprocating motion of the piston 7, the working fluid is compressed at the compressing chamber 6" of the cylinder 6, the compressed working fluid is discharged from the compressing chamber 6", passes the valve plate 14 and reaches the high-pressure side 10t of the head cover 10. And, the working fluid reached the high-pressure side passes an additional discharge path (not shown) and a discharge noise reducing structure (not shown) and is discharged outside through the discharge pipe 13. In the meantime, a low-pressure working fluid passes the suction muffler 11 through the suction pipe 12, reaches the valve plate 14 and flow into the compressing chamber 6" by the control of the valve plate 14. However, the head cover structure of the hermetic motor-driving type compressor in accordance with the prior art has below problems. The head cover 10 is injection-molded out of aluminum or is cast, when the head cover 10 is molded out of aluminum, a productivity may be lowered due to the cost of materials, when the head cover 10 is cast, because a precise additional process for a flat surface 10a of the head cover 10 is required, the production cost may be increased. In addition, in the injection molding of the head cover 10, a bent is generated at the flat surface 10a due to the head distortion caused by a non- uniform cooling. Accordingly, there is a gap between the head cover 10 and the valve plate 14, the leakage of the working fluid occurs by the pressure difference between the high-pressure side 10t and the low-pressure side 10b of the head cover 10, it may cause an efficiency reducing problem and abnormal operation of the compressor. And, when the leakage of the working fluid occurs at the head cover 10, because the suction muffler 11 made of the plastic material melts with the influence of the high temperature-high-pressure working fluid transmitted from the high-pressure side 10t or the gasket 13 bursts, it may cause the trouble of the compressor. In the meantime, in the injection-molding or casting of the head cover 10, because a burr occurs at the external boundary surface, an interference occurs in the combination of the suction muffler 11 and the lower pressure side 10b of the head cover 10. And, a height of the head cover 10 is different from a mounting height of the suction muffler 11, when the head cover 10 mounted the suction muffler 11 is installed to the cylinder 6, a gap occurs between the head cover 10 and the suction muffler 11, accordingly the leakage of the working fluid may occur. In order to solve the above-mentioned problems, the mold of the head cover has to be modified or has to be made newly, accordingly, an enormous expense loss may occur. SUMMARY OF THE INVENTION In order to solve above-mentioned problems, it is an object of the present invention to provide a head cover structure for a hermetic motor-driving type compressor, which is capable of reducing the cost of materials. It is another object of the present invention to provide a head cover structure of a hermetic motor-driving type compressor, which is capable of preventing leakage of a working fluid at a head cover. It is still another object of the present invention to provide a head cover structure of a hermetic motor-driving type compressor which is capable of preventing interference due to a burr in installation of a suction muffler to a head cover and modifying easily a mounting height in installation of the head cover to a cylinder. In order to achieve the above-mentioned objects, the present invention provides a cylinder head cover structure of a hermetic motor-driving type compressor, comprising a front head cover having a low-pressure side through which refrigerant is sucked and a high-pressure side through which compressed refrigerant flows, the low pressure side and the high pressure side being divided by a first enclosure wall formed therebetween and a rear head cover joined to a rear surface of the front head cover and having a low-pressure side and a high-pressure side (40t) which are divided by a second enclosure wall, wherein an engaging groove and protrusion are formed on the front head cover so as to mate with a corresponding protrusion and groove portion formed on a suction muffler. BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a sectional view illustrating an internal structure of a general hermetic motor-driving type compressor; Figure 2 is a disassembled perspective view illustrating the conventional hermetic motor-driving type compressor; Figure 3 is a disassembled perspective view illustrating a head cover in accordance with the present invention; Figure 4A is a perspective view illustrating a front head cover in accordance with the present invention; Figure 4B is a sectional view taken along the line A-A of the front head cover of Figure 4A; Figure 5A is a perspective view illustrating a rear head cover in accordance with the present invention; and Figure 5B is a sectional view taken along the line B-B of the rear head cover of Figure 5A. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, the preferred embodiments of a head cover structure of a hermetic motor-driving compressor in accordance with the present invention will be described with reference to accompanying drawings. Herein, construction parts same with the conventional art will be given the same reference numerals, and explanation those parts will be abridged. As depicted in Figure 3, in a head cover structure of a hermetic motor- driving type compressor in accordance with the present invention, in order to form a head cover 50, a front head cover 30 is combined to a rear head cover 40 by brazing welding. And, in the head cover 50, a through hole 35 for bolt insertion is respectively formed at the front head cover 30 and the rear head cover 40 in order to be fastened to a cylinder 6. In addition, an engaging part 21a is formed at the front end of a suction muffler 21 inserted into an engaging groove 30r of the head cover 50, and a protrusion portion 21b for insertion installation is formed at both sides of the engaging part 21a. Hereinafter, the structure of the front head cover 30 and the rear head cover 40 will be described in detail. As depicted in Figure 4A, the front head cover 30 includes a high-pressure side 30t in which the compressed refrigerant flows, a low-pressure side 30b in which the engaging part 21a of the suction muffler 21 is placed, and an enclosure wall 30p dividing them. As depicted in Figure 4B, the high-pressure side 30t and the low-pressure side 30b are punched, and the engaging groove 30r is formed at the low-pressure side 30b in order to be inserted by the protrusion portion 21b formed at the engaging part 21a of the suction muffler 21. And, an engaging groove protrusion portion 30s is formed at the inner circumference of the engaging groove 30r to be corresponded to the shape of the protrusion portion 21b formed at the suction muffler 21. And, the front head cover 30 is made of a steel plate by a press process, a flatness of the flat surface 30a formed at the front head cover 30 can be improved in comparison with the conventional art, and the cost of materials can be reduced by using a steel material cheaper than aluminum. In the meantime, as depicted in Figure 5A, the rear head cover 40 combined to the front head cover 30 by a brazing welding is made of a steel plate by a press process, and includes a low-pressure side 40b in which the suction muffler 21 is installed and the high-pressure side 40t in which the compressed working fluid flows. In additon, as depicted in Figure 5B, the rear surface of the high-pressure side 40t is convexly formed, and the low-pressure side 40b is punched. In the meantime, the enclosure wall 40p is formed between the low-pressure side 40b and the high-pressure side 40t in order to prevent mixing of the working fluid. In addition, an engaging flat portion 40f is formed around the low-pressure side 40b in order to fix tightly the front surface of the inserted suction muffler 50 to the cylinder when the suction muffler 21 is installed to the cylinder after being assembled to the head cover 50. Hereinafter, the assembly of the head cover structure of the hermetic motor-driving type compressor in accordance with the present invention will be described in more detail. First, as described above, the front head cover 30 is combined to the rear head cover 40 by the brazing welding. After, the suction muffler 21 is inserted into the front head cover 30 from the top to the bottom. It is possible to insert the suction muffler 21 by fabricating it with a plastic material. And, in the insertion, the protrusion portion 21b formed at the engaging part 21a of the suction muffler 21 is in gear with the protrusion portion 30s of the engaging groove 30r formed at the front head cover 30, and the rear surface of the suction muffler 21 is contacted to the engaging flat part 40f formed at the front surface of the rear head cover 40. And, by contacting to the flat surface 30a of the front head cover 30, the leakage of the working fluid can be prevented, and the gasket 13 and the valve plate 14 for adjusting flow of the working fluid are placed between the head cover 50a and the cylinder 6. Next, a fastening means such as a bolt, etc. penetrates the through hole 35 formed at the head cover 50, the gasket 13 and the valve plate 14 and is combined to a corresponded engaging hole (not shown) of the cylinder 6. Hereinafter, the operation and effect of the head cover structure of the hermetic motor-driving type compressor in accordance with the present invention will be described. First, when the compressor operates, the rotation motion of the crankshaft 5 is converted into the linearly reciprocating motion of the piston 7 by the connecting rod 8. When the working fluid is compressed by the piston 7, the working fluid is transmitted to the high-pressure side 30t of the head cover 50 through a discharge valve (not shown). After, the working fluid transmitted to the high-pressure side 30t of the head cover 50 passes an additional discharge channel (not shown) and a discharge noise reducing structure (not shown) and is discharged outside through the discharge pipe 13. In the meantime, a low-pressure working fluid passes the suction muffler 11 through the suction pipe 12, reaches the valve plate 14 and flows into the compressing chamber 6" by the control of the valve plate 14. Accordingly, in the head cover structure of the hermetic motor-driving type compressor, the head cover 50 is constructed with two plates, the front head cover 30 and the rear head cover 40 are made of steel plates by the press process, the cost of materials is reduced in the comparison with the conventional aluminum injection-molding process. And, the flatness of the flat surface 30a formed at the front head cover 30 contacting to the gasket 13 is improved, a leakage of the working fluid and the damage of the suction muffler 21 due to the leakage of the working fluid can be prevented. In addition, because the front head cover 30 is made of the steel plate by the press process, a burr does not be formed at the exterior of a product, accordingly the assembly of the suction muffler 21 can be performed easily. And, in installation of the suction muffler 21 to the head cover 50, when the height is different each other, the head cover 50 has to be modified, herein the installation height can be easily adjusted by changing a thickness of a steel plate for fabricating the front head cover 30 or changing the position of the protrusion portion 30s of the engaging groove formed at the front head cover 30. In addition, by the installation height adjustment structure, in installation of the suction muffler 21 to the cylinder 6, a leakage occurrence of the working fluid can be easily prevented, and the installation of the suction muffler 21 can be easily performed. Moreover, in comparison with modification or re-manufacture of a mold in the conventional injection-molding, the production cost can be drastically reduced. As described above, in the head cover structure of the hermetic motor- driving type compressor in accordance with the present invention, the cost of materials can be reduced. In addition, a reliability of product can be improved by preventing leakage of a working fluid at a head cover. In addition, in the head cover structure of the hermetic motor-driving type compressor in accordance with the present invention, because a suction muffler can be precisely installed to a cylinder, an installation height can be easily modified, accordingly a reliability and a productivity of a product can be improved. WE CLAIM: 1. A cylinder head cover structure of a hermetic motor-driving type compressor, comprising: a front head cover 30 having a low-pressure side 30b through which refrigerant is sucked; and a high-pressure side 30t through which compressed refrigerant flows, the low pressure side and the high pressure side being divided by a first enclosure wall formed therebetween; and a rear head cover 40 joined to a rear surface of the front head cover 30 and having a low-pressure side 40b and a high-pressure side 40t which are divided by a second enclosure wall; wherein an engaging groove and protrusion are formed on the front head cover so as to mate with a corresponding protrusion and groove portion formed on a suction muffler 21. 2. The structure as claimed in claim 1, wherein the front head cover 30 and the rear head cover 40 are made of steel materials in order to be processed by a press process. 3. The structure as claimed in claim 1, wherein a flat surface 30a is formed at a certain whole side of the front head cover 30 in order to combine closely the certain whole side of the front head cover 30 to a corresponded surface of the gasket 13 in assembly of a head cover 50. 4. The structure as claimed in claim 3, wherein the flat surface 30a is formed on the steel plate by a press process. 5. A head cover structure of a hermetic motor- driving type compressor, substantially as herein described, particularly with reference to the accompanying drawings. 13. There is disclosed a cylinder head cover structure of a hermetic motor- driving type compressor, comprising a front head cover (30) having a low- pressure side (30b) through which refrigerant is sucked; and a high-pressure side (30t) through which compressed refrigerant flows, the low pressure side and the high pressure side being divided by a first enclosure wall formed therebetween, and a rear head cover (40) joined to a rear surface of the front head cover (30) and having a low-pressure side (40b) and a high-pressure side (40t) which are divided by a second enclosure wall, wherein an engaging groove and protrusion are formed on the front head cover so as to mate with a corresponding protrusion and groove portion formed on a suction muffler.

Documents:

669-cal-2001-granted-abstract.pdf

669-cal-2001-granted-claims.pdf

669-cal-2001-granted-correspondence.pdf

669-cal-2001-granted-description (complete).pdf

669-cal-2001-granted-drawings.pdf

669-cal-2001-granted-form 1.pdf

669-cal-2001-granted-form 18.pdf

669-cal-2001-granted-form 2.pdf

669-cal-2001-granted-form 3.pdf

669-cal-2001-granted-form 5.pdf

669-cal-2001-granted-gpa.pdf

669-cal-2001-granted-letter patent.pdf

669-cal-2001-granted-priority document.pdf

669-cal-2001-granted-reply to examination report.pdf

669-cal-2001-granted-specification.pdf

669-cal-2001-granted-translated copy of priority document.pdf