JP2014517209A - Sealed compressor connector - Google Patents

Abstract

  The present invention is a connection pipe (2) for a hermetic compressor for connecting the hermetic compressor housing (1) to a pipe (3) (which may be a process valve pipe or an evaporative condensation system pipe), Connection pipe (2) comprising at least two parts of different materials joined by a simple joining process (preferably welding, soldering or mechanical fastening). In a preferred embodiment of the invention, the connecting pipe (2) comprises a first part (5) comprising a first material and a second part (6) comprising a second material, the connecting pipe The second part (6) of (2) can join the first part (5) of the connecting pipe and the system pipe (3).

Description

  The present invention relates to a hermetic connector (preferably tubular) that has been developed to reduce manufacturing costs by using a plurality of materials mainly as constituent materials.

  Hermetic compressors widely used in the field of cooling technology, especially refrigerators and freezers, ensure the loss of processing gas in order to increase the life of the equipment and at the same time shorten the maintenance period of the equipment and increase the thermal efficiency. It is a device that needs to be minimized.

  An important point for maintaining the airtightness of the compressor is the connection that connects the compressor to the evaporative condensation system, which is usually done by connecting pipes that are fastened by welding, soldering, or mechanical fastening. Is called. The connection of the process valve pipe used to inject oil and coolant when connecting the compressor to the system or when system maintenance is needed is connected in the same way.

  Connection pipes in the state of the art are typically manufactured from a single material, steel or copper, to facilitate interfacing with refrigerator or freezer systems. Copper is most often used because it is easy to braze to the system tubing and to seal process valve tubing.

  However, because copper is a noble metal and is expensive compared to other mechanically equivalent materials (eg steel), use copper in applications that do not require specific properties (physical or chemical) As a result, the cost of the final product becomes higher than necessary. Furthermore, another negative point about using only copper is that it is a rare metal in nature compared to other materials such as iron. Therefore, the use of copper should be avoided whenever possible.

  Some literature on the state of the art describes compressors with connecting pipes made of materials other than copper, but they do not mention the problem of additional costs associated with the materials, Furthermore, it is not intended to refrain from using this metal. Furthermore, these components are integrally molded from a single material and represent embodiments and purposes that are completely different from the subject matter of the present invention.

  As a first example, Brazilian Patent No. PI0613759 discloses a pipe for connecting a compression chamber of an apparatus and an evaporative condensation system, and heating the compression chamber between a piston jacket and a compressor housing. The use of a tube made entirely of flexible material to reduce is described. The tube is solidly formed of a high heat conductive resistant polymer. In this regard, materials other than copper are used to connect the compressor housing and the tubes of the condensation cooling system, but the tubes described in the above document are made entirely of a single component material. It should be noted that the cost of the product is not taken into account except for the above.

  As a second example, Canadian Patent No. 1153997 discloses a connecting pipe made of copper pipe (which may alternatively be steel), one end of which is connected to the compressor housing. And a connecting pipe for connecting the other end to the pipe of the cooling condensing system. A copper (or steel) tube contains a tubular body that can maintain a third tubular body made of a ductile material by pressing the inner surface of the tube. With this interference fit, the cooling condensation system can be reliably sealed. Therefore, it should be noted that what is disclosed in the above document is a very complex structure where it can be seen that the connecting tube is made entirely of a single component material.

  Next, European Patent No. 0386320 discloses a connector (having a conical filter inside) made of an unspecified material for joining a compressor housing, the opposite end of which is connected to the pipe system. A connector is disclosed that is coupled to a copper adapter that effectively makes the connection, i.e., two separate elements, each consisting of a single material, are coupled together (fully fastened) by a joint. Copper adapters are also used to attach a conical filter to a compressor valve, so that the disclosed process is costly due to complexity in manufacturing and assembly.

  Therefore, the state of the art consists of different materials that are joined together into a single piece that is less expensive to manufacture and does not require multiple individual parts to be mounted on the compressor or system tube. There is no connecting pipe that can be easily installed.

Brazil patent No. PI0613759 specification Canadian Patent No. 1153997 European Patent No. 0386320

  One of the objects of the present invention is to ensure a proper hermetic joint between related parts by providing a connector for a compressor that is less expensive and has an equivalent efficiency.

  Furthermore, it is also an object of the present invention to provide a connector for a hermetic compressor manufactured using a minimum amount of copper, which is a metal that does not exist in abundance in nature.

  Another object of the present invention is to provide an integral part of two different materials, but of materials that maintain the optimum properties for the assembly, function and hermeticity of hermetic compressors commonly used in cooling systems. is there.

  The object of the present invention is a connector for a hermetic compressor, which is a type of connector with a connecting pipe between the compressor housing and any pipe or process valve pipe, for example an evaporative condensation system, which is different. Having at least two parts of material, these parts are achieved by a connector comprising an integral tube joined by a suitable joining process.

  According to a preferred embodiment of the present invention, the integral tube comprises a first part comprising a first material and a second part comprising a second material, wherein the first part of the connecting tube is The connecting tube and the compressor housing can be joined, and the second portion of the connecting tube can join the connector tube to the system tube.

  Further in accordance with a preferred embodiment of the present invention, the first portion of the connecting tube is preferably made of a material belonging to the group consisting of steel, aluminum, and metals having similar properties, and the second portion of the connecting tube. This part is preferably made of copper.

  Alternatively, the first portion of the connecting tube may be coated with copper or other suitable coating material.

  In a preferred embodiment of the invention, the first part of the connecting pipe is joined with the second part of the connecting pipe by a fastening process belonging to the group consisting of brazing, welding or mechanical fastening.

  That is, the present invention is easy to install and requires proper functioning of the system by providing means for the connecting tube to be composed of at least two parts of different materials joined by a suitable joining process. In addition to providing the same level of airtightness, it provides a less expensive manufacturing process.

It is a longitudinal direction schematic sectional drawing of one Embodiment of the connection pipe for hermetic compressors of the state of the art. 1 is a schematic longitudinal sectional view of a connector for a hermetic compressor manufactured according to a preferred embodiment of the present invention. It is the schematic of the compressor with which the connection pipe was attached.

  The present invention will be described in more detail with reference to the accompanying drawings.

  FIG. 1 shows a connecting pipe 2 that is conventionally used in the state of the art, a compressor housing 1 and an optional pipe 3 (refrigeration or freezer evaporation and condensing system pipe fitted with a process valve or hermetic compressor). It is the figure which showed the connecting pipe 2 for joining to. This is typically an integral part made of a single material (usually copper), with one end coupled to the compressor housing 1 and the other end coupled to the system tube 3. is there.

  Usually, joining the connecting tube 2 to the tube 3 of the system is performed by brazing 4, as shown in FIG.

  A preferred embodiment of the present invention is shown in detail in FIG. The connector 2 consists of two tubular parts 5, 6, the first part 5 of the connecting tube 2 is made of one material, and the second part 6 of the connecting tube is a material different from the material of the first part 5. Consists of.

  When considering the specific application and interconnection with adjacent components, it is important to clarify whether the materials used are similar or completely different from each other.

  In an alternative form of the present invention, it is also possible to use three or more parts constituting the connecting pipe 2, each containing different materials, or three or more parts combining similar materials or different materials with each other. is there.

  In a preferred embodiment of the invention, aluminum or steel is used as the material for the first part 5 of the connecting tube 2. This is because they are relatively abundant and inexpensive materials, have sufficient mechanical properties, and the manufacturing process is well established.

  On the other hand, the manufacturing material of the second part 6 of the connecting tube 2 is preferably copper in order to maintain the necessary properties for the correct operation and assembly of the system as a whole.

  Alternatively, the first portion 5 of the connecting tube 2 may be made of other metallic materials coated with aluminum, steel, or copper or other coating suitable for the application.

  The two parts 5, 6 of the connecting tube 2 can be connected to any fixed bonding process, provided that it meets the requirements of a suitable fixed bonding process (ie mechanical strength, tightness and any other characteristics defined in the project). May be used) at the region 7. Among the possible processes for fixed joining, in particular brazing, welding and mechanical fastening.

  Therefore, as an end product, an integrated connection that is significantly cheaper than conventional connecting pipes and that allows easy and feasible installation processes with other system components, ie, compressor housing 1 and system pipe 3 Tube 2 is obtained.

  By using the first part 5 of the connecting pipe 2 made of steel or aluminum, it can be seen that the manufacturing cost is lower than the cost of using the connecting pipe 2 made entirely of copper.

  Furthermore, the coupling method used to join and / or fasten the connecting pipe 2 to the housing 1 and the joining of the connecting pipe 2 to the system pipe 3 does not affect the embodiment of the present invention. It is clear that any method suitable for meeting the requirements of may be employed and will not be described herein.

  As an example, the connection pipe 2 and the system pipe 3 may be joined by welding, brazing, or mechanical fastening to the bonding point 4 depending on the raw material of the pipe.

  Although preferred structural forms of the present invention have been described, it will be understood that those skilled in the art may make some omissions, substitutions, and structural modifications without departing from the spirit and scope of protection of the present invention. It should be noted. Also, all combinations of elements performing the same function in substantially the same way to achieve the same result are intended to be within the scope of the invention. Replacement of elements of the described embodiments with other elements is also entirely covered.

  It will be understood that the above description based on the drawings relates only to one of the possible embodiments of the system of the present invention, and that the actual scope of the present invention is defined in the appended claims. It should be.

  The present invention relates to a hermetic connector (preferably tubular) that has been developed to reduce manufacturing costs by using a plurality of materials mainly as constituent materials.

  Hermetic compressors widely used in the field of cooling technology, especially refrigerators and freezers, ensure the loss of processing gas in order to increase the life of the equipment and at the same time shorten the maintenance period of the equipment and increase the thermal efficiency. It is a device that needs to be minimized.

  An important point for maintaining the airtightness of the compressor is the connection that connects the compressor to the evaporative condensation system, which is usually done by connecting pipes that are fastened by welding, soldering, or mechanical fastening. Is called. The connection of the process valve pipe used to inject oil and coolant when connecting the compressor to the system or when system maintenance is needed is connected in the same way.

  Connection pipes in the state of the art are typically manufactured from a single material, steel or copper, to facilitate interfacing with refrigerator or freezer systems. Copper is most often used because it is easy to braze to the system tubing and to seal process valve tubing.

  However, because copper is a noble metal and is expensive compared to other mechanically equivalent materials (eg steel), use copper in applications that do not require specific properties (physical or chemical) As a result, the cost of the final product becomes higher than necessary. Furthermore, another negative point about using only copper is that it is a rare metal in nature compared to other materials such as iron. Therefore, the use of copper should be avoided whenever possible.

  Some literature on the state of the art describes compressors with connecting pipes made of materials other than copper, but they do not mention the problem of additional costs associated with the materials, Furthermore, it is not intended to refrain from using this metal. Furthermore, these components are integrally molded from a single material and represent embodiments and purposes that are completely different from the subject matter of the present invention.

  As a first example, Brazilian Patent No. PI0613759 discloses a pipe for connecting a compression chamber of an apparatus and an evaporative condensation system, and heating the compression chamber between a piston jacket and a compressor housing. The use of a tube made entirely of flexible material to reduce is described. The tube is solidly formed of a high heat conductive resistant polymer. In this regard, materials other than copper are used to connect the compressor housing and the tubes of the condensation cooling system, but the tubes described in the above document are made entirely of a single component material. It should be noted that the cost of the product is not taken into account except for the above.

  As a second example, Canadian Patent No. 1153997 discloses a connecting pipe made of copper pipe (which may alternatively be steel), one end of which is connected to the compressor housing. And a connecting pipe for connecting the other end to the pipe of the cooling condensing system. A copper (or steel) tube contains a tubular body that can maintain a third tubular body made of a ductile material by pressing the inner surface of the tube. With this interference fit, the cooling condensation system can be reliably sealed. Therefore, it should be noted that what is disclosed in the above document is a very complex structure where it can be seen that the connecting tube is made entirely of a single component material.

  Next, European Patent No. 0386320 discloses a connector (having a conical filter inside) made of an unspecified material for joining a compressor housing, the opposite end of which is connected to the pipe system. A connector is disclosed that is coupled to a copper adapter that effectively makes the connection, i.e., two separate elements, each consisting of a single material, are coupled together (fully fastened) by a joint. Copper adapters are also used to attach a conical filter to a compressor valve, so that the disclosed process is costly due to complexity in manufacturing and assembly.

  WO 2006/090979 describes a connector for a hermetic compressor of the type comprising an integral connecting tube having two or more elements of different materials. However, the above document does not describe any connecting pipes made of different materials having the same diameter as shown in this patent application.

  Therefore, the state of the art consists of different materials that are joined together into a single piece that is less expensive to manufacture and does not require multiple individual parts to be mounted on the compressor or system tube. There is no connecting pipe that can be easily installed.

Brazil patent No. PI0613759 specification Canadian Patent No. 1153997 European Patent No. 0386320 International Publication No. 2006/090979 Pamphlet

  One of the objects of the present invention is to ensure a proper hermetic joint between related parts by providing a connector for a compressor that is less expensive and has an equivalent efficiency.

  Furthermore, it is also an object of the present invention to provide a connector for a hermetic compressor manufactured using a minimum amount of copper, which is a metal that does not exist in abundance in nature.

  Another object of the present invention is to provide an integral part of two different materials, but of materials that maintain the optimum properties for the assembly, function and hermeticity of hermetic compressors commonly used in cooling systems. is there.

  The object of the present invention is a connector for a hermetic compressor, which is a type of connector with a connecting pipe between the compressor housing and any pipe or process valve pipe, for example an evaporative condensation system, which is different. Having at least two parts of material, these parts are achieved by a connector comprising an integral tube joined by a suitable joining process.

  According to a preferred embodiment of the present invention, the integral tube comprises a first part comprising a first material and a second part comprising a second material, wherein the first part of the connecting tube is The connecting tube and the compressor housing can be joined, and the second portion of the connecting tube can join the connector tube to the system tube.

  Further in accordance with a preferred embodiment of the present invention, the first portion of the connecting tube is preferably made of a material belonging to the group consisting of steel, aluminum, and metals having similar properties, and the second portion of the connecting tube. This part is preferably made of copper.

  Alternatively, the first portion of the connecting tube may be coated with copper or other suitable coating material.

  In a preferred embodiment of the invention, the first part of the connecting pipe is joined with the second part of the connecting pipe by a fastening process belonging to the group consisting of brazing, welding or mechanical fastening.

  That is, the present invention is easy to install and requires proper functioning of the system by providing means for the connecting tube to be composed of at least two parts of different materials joined by a suitable joining process. In addition to providing the same level of airtightness, it provides a less expensive manufacturing process.

It is a longitudinal direction schematic sectional drawing of one Embodiment of the connection pipe for hermetic compressors of the state of the art. 1 is a schematic longitudinal sectional view of a connector for a hermetic compressor manufactured according to a preferred embodiment of the present invention. It is the schematic of the compressor with which the connection pipe was attached.

  The present invention will be described in more detail with reference to the accompanying drawings.

  FIG. 1 shows a connecting pipe 2 that is conventionally used in the state of the art, a compressor housing 1 and an optional pipe 3 (refrigeration or freezer evaporation and condensing system pipe fitted with a process valve or hermetic compressor). It is the figure which showed the connecting pipe 2 for joining to. This is typically an integral part made of a single material (usually copper), with one end coupled to the compressor housing 1 and the other end coupled to the system tube 3. is there.

  Usually, joining the connecting tube 2 to the tube 3 of the system is performed by brazing 4, as shown in FIG.

  A preferred embodiment of the present invention is shown in detail in FIG. The connector 2 consists of two tubular parts 5, 6, the first part 5 of the connecting tube 2 is made of one material, and the second part 6 of the connecting tube is a material different from the material of the first part 5. Consists of.

  When considering the specific application and interconnection with adjacent components, it is important to clarify whether the materials used are similar or completely different from each other.

  In an alternative form of the present invention, it is also possible to use three or more parts constituting the connecting pipe 2, each containing different materials, or three or more parts combining similar materials or different materials with each other. is there.

  In a preferred embodiment of the invention, aluminum or steel is used as the material for the first part 5 of the connecting tube 2. This is because they are relatively abundant and inexpensive materials, have sufficient mechanical properties, and the manufacturing process is well established.

  On the other hand, the manufacturing material of the second part 6 of the connecting tube 2 is preferably copper in order to maintain the necessary properties for the correct operation and assembly of the system as a whole.

  Alternatively, the first portion 5 of the connecting tube 2 may be made of other metallic materials coated with aluminum, steel, or copper or other coating suitable for the application.

  The two parts 5, 6 of the connecting tube 2 can be connected to any fixed bonding process, provided that it meets the requirements of a suitable fixed bonding process (ie mechanical strength, tightness and any other characteristics defined in the project). May be used) at the region 7. Among the possible processes for fixed joining, in particular brazing, welding and mechanical fastening.

  Therefore, as an end product, an integrated connection that is significantly cheaper than conventional connecting pipes and that allows easy and feasible installation processes with other system components, ie, compressor housing 1 and system pipe 3 Tube 2 is obtained.

  By using the first part 5 of the connecting pipe 2 made of steel or aluminum, it can be seen that the manufacturing cost is lower than the cost of using the connecting pipe 2 made entirely of copper.

Claims (5)

A connector for a hermetic compressor of the type comprising a compressor housing (1) and a pipe (2) for interconnection with an optional system pipe (3) or process valve pipe, for example an evaporative condensation system,
An integral tube (2) comprising at least two parts (5, 6) of different materials, the two parts (5, 6) joined by a suitable joining process;
A connector characterized in that the connecting tube (2) comprises at least two parts (5, 6) of different materials joined by a suitable joining process. The integral tube (2)
A first portion (5) of a first material;
A second part (6) made of a second material,
The first part (5) of the connecting pipe (2) can join the connecting pipe (2) and the housing (1) of the compressor, and the second part (6) of the connecting pipe (2) is connected. 2. Connector according to claim 1, characterized in that the tube (2) can be joined to the system tube (3).   3. Connector according to claim 1 and 2, characterized in that the first part (5) of the connecting tube (2) is made of a material belonging to the group consisting of steel, aluminum and metals with suitable properties.   Connector according to claims 1 and 2, characterized in that the second part (6) of the connecting pipe (2) is made of copper.   The first part (5) of the connecting pipe (2) is joined with the second part of the connecting pipe by a fastening process belonging to the group consisting of brazing, welding or mechanical fastening, The connector of any one of Claims 1-4.

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