JP2017160908A - Discharge acoustic filter, manufacturing method of discharge acoustic filter, and sealed compressor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To integrate a compact acoustic filter with a pipe disposed inside the acoustic filter and connecting an expansion chamber and the other expansion chamber.SOLUTION: A discharge acoustic filter in a mechanical engineering field is explained. Concretely, a surface area of the discharge acoustic filter is reduced, and heat exchange relating to a sealed volume is reduced, so that heat efficiency of a device is improved. Further to reduce energy consumption, a discharge acoustic filter composed of a high polymer material provided with a connecting portion between discharge chambers inside thereof if necessary, is included.SELECTED DRAWING: Figure 1

Description

  The present invention is in the field of mechanical engineering. More specifically, the present invention describes a discharge acoustic filter made of a polymeric material having an expansion chamber interconnect through an internal duct.

  Discharge acoustic filters are already widely used coupled to the compressor to reduce the pulses generated by the compressor. Discharge acoustic filters are generally made of steel, can be pressed and machined, have a wide variety of parts, and can be integrated into a cast iron block. However, steel discharge acoustic filters are large, heavy, and exhibit a large surface area that increases heat exchange between the compressor and the enclosed volume.

  Steel discharge acoustic filters are more complex sets because the tubes connecting the expansion chamber, cylinder cover and the rest of the device are made of copper and must be assembled by brazing and adapted to a specific type. It has a solid.

  The present invention has established a solution to many of these and other technical problems. In one aspect, the ejection acoustic filter of the present invention is made of a polymeric material and reduces the weight of the assembly. In other aspects, a solution is also provided to reduce the size (miniature acoustic filter) and provide pulse attenuation in the desired application.

  Prior art searches in the patent and scientific literature have found only partially relevant documents, which are described below.

  EP 2725228 discloses an acoustic filter or muffler having a metal body covered with a non-metallic material and also having an inner tube. The proposed technical solution is intended to reduce the temperature of the fluid and promote better efficiency of the compressor.

  U.S. Pat. No. 8,246,320 discloses an acoustic filter or suction muffler that includes two expansion chambers and a connecting tube connecting the second chamber to the muffler outlet. The proposed technical solution is intended to reduce the loss of the suction load, minimize the pulses and improve the cooling capacity of the device.

  It is clear from the literature investigated that, from the inventor's point of view, the solution proposed here is in view of the state of the art because no literature has been found that anticipates or suggests the teaching of the present invention. It presents novelty and inventive step.

  In view of the discovery of all the literature, there remains a need for smaller ejection acoustic filters that have technical features such as the ability to attenuate pulses generated by the compressor.

European Patent Application Publication No. 2725228 US Pat. No. 8,246,320

  The object of the present invention is to solve the problems found in the technical state of the art by means of a small discharge acoustic filter that integrates a cylinder cover and a discharge chamber in a special device / equipment.

  The concept of the present invention common to all claimed protection situations is to integrate a small acoustic filter with a tube connecting an expansion chamber and another expansion chamber, where the tube is inside the acoustic filter. Placed in. Furthermore, the acoustic filter of the present invention is entirely made of a polymer material as necessary.

  In a first aspect, the present invention presents an acoustic filter that includes a compact structure and an inner tube. The surface area is smaller, reducing heat exchange with the enclosed volume and actually reducing the temperature of the assembly. Acoustic filters also increase the efficiency of the cooling system and reduce energy consumption.

  In another aspect, the present invention provides a discharge acoustic filter that is light in weight and entirely polymeric in both the expansion chamber and the inner tube. The structure of the acoustic filter does not use or require a metal tube and facilitates assembly installation. Furthermore, the need for extra assembly steps (such as brazing, bonding, welding, interference techniques) and tube formation is eliminated.

In a first object, the present invention provides a discharge acoustic filter, which discharge acoustic filter comprises:
a. At least a first element (1),
i. At least one first discharge chamber (4);
ii. A part (5a) of the second discharge chamber;
iii. A part (6a) of the third discharge chamber;
iv. A part (7a) of the fourth discharge chamber;
v. A first duct (8) connecting the first discharge chamber (4) to the second discharge chamber (5);
vi. A part (10a) of a third duct connecting the third discharge chamber (6) to the fourth discharge chamber (7);
At least a first element (1) comprising:
b. At least a second element (2),
i. A part (5b) of the second discharge chamber;
ii. A part (6b) of the third discharge chamber;
iii. A part (7b) of the fourth discharge chamber;
iv. A part (10b) of a third duct connecting the third discharge chamber (6) to the fourth discharge chamber (7);
v. A part (9b) of the second duct connecting the second discharge chamber (5) to the third discharge chamber (6);
Including at least a second element (2),
c. At least a third element (3),
i. Coupled to part (9b) of the second duct,
ii. Including at least a third element (3) connecting the second discharge chamber (5) to the third discharge chamber (6),
The first element (1) is coupled to the second element (2) and the third element (3).

For the second purpose, the present invention provides:
a. Producing a first element (1);
b. Producing a second element (2);
c. Positioning the third element (3) to the second element;
d. Assembling the first element (1) to the second element (2);
The manufacturing method of the discharge acoustic filter containing is proposed.

In a third object, the present invention provides a hermetic compressor including a discharge acoustic filter,
a. A compressor cylinder cover (11) including at least a first discharge chamber (4);
b. A bond between the first element (1) and the second element (2) and an intermediate region formed by the third element (3), wherein
The intermediate region is constituted by a combination of at least the second discharge chamber (5), at least the third discharge chamber (6), and at least the fourth discharge chamber (7).
The discharge chambers in the intermediate region are in fluid communication with each other.

  In one aspect, the compressor of the present invention provides higher energy efficiency of products and / or assemblies, minimum temperature in the enclosed volume, light weight and superior simplification. In addition, a lighter acoustic filter helps reduce vibration on the compressor and reduce assembly weight imbalance.

  These and other objects of the present invention will be readily recognized by those skilled in the art and companies interested in the field, and are described in sufficient detail to reproduce them in the following description.

  In order to better define the content of the present invention, the following figure is presented.

It is an image of one Example of the mounted discharge acoustic filter. It is an image of the 1st element (1) of one example of a discharge acoustic filter. It is an image of the 2nd element (2) of one Example of a discharge acoustic filter. It is an image of the 1st element (1) of one example of a discharge acoustic filter. It is an image of one Example of the hermetic compressor containing a discharge acoustic filter. It is an image which can visually recognize a state-of-the-art compressor, a metal discharge acoustic filter chamber, and a metal tube connecting the chambers. It is the figure which compared the acoustic performance by the transmission loss of the proposed filter with respect to a technical level.

  The examples provided herein are merely illustrative of some of the many other ways to accomplish the present invention without detracting from its scope.

  The present invention presents a discharge acoustic filter used for the attenuation of pulses generated by a compressor. The acoustic filter of the present invention is compact, includes a cylinder cover, and includes a duct / pipe for a fluid flow path disposed therein. The acoustic filter of the present invention is particularly useful for a compressor, a hermetic compressor, and / or a reciprocating hermetic compressor.

  In one embodiment, the acoustic filter is made entirely of a polymeric material and includes a first element (1) coupled to a second element (2) in addition to a third element (3) disposed within the acoustic filter. Formed by. The combination of the first element (1) and the second element (2) forms a discharge chamber, where all the connections between the discharge chambers are internal connections.

  In one embodiment, the ejection acoustic filter of the present invention includes the following three elements.

  -The first element (1) has a cylinder cover (11) of the compressor including the first discharge chamber (4), part of the second discharge chamber (5a), part of the third discharge chamber (6a ) And a part (7a) of the fourth discharge chamber.

  The second element (2) has a part of the second discharge chamber (5b), a part of the third discharge chamber (6b) and a part of the fourth discharge chamber (7b), all interconnected; However, the element also includes an internal extension as part (9b) of the second duct, and in the coupling of the elements, the formed parts are simultaneously integrated to form a discharge chamber.

  The third element (3) is a duct for a fluid flow path;

  In one embodiment, the first element (1) is formed by a cylinder cover (11) that includes a first discharge chamber (5). The discharge chamber means is a hollow volume between the walls, which results in the expansion of the gas passing through the hollow volume between the walls. A first duct (8) in the fluid flow path connects the first discharge chamber (4) to the second discharge chamber (5). The second discharge chamber (5) is also interconnected to the third discharge chamber (6) so as to be separated by a divider element and divider divider both in fluid communication.

  The second element (2) includes the second discharge so as to include a part (9b) of the second duct formed in an internal extension connecting the third discharge chamber (6) to the fourth discharge chamber (7). A part of the chamber (5b), a part of the third discharge chamber (6b), and a part of the fourth discharge chamber (7b) are formed. The second element (2) also includes a portion (10b) of the third duct connecting the second discharge chamber (5) to the third discharge chamber (6), where the portions related to the duct are coupled. In that case, a part of the duct from the first element (1) to the third element (3) forms a duct arranged inside the discharge acoustic filter proposed by the present invention. A duct is any material and type of element that allows the integration and passage of fluid between discharge chambers.

  The third element (3) is arranged in a part (9b) of the second duct so as to form the second duct (9) itself, and the third discharge chamber (5) is connected to the third so that both are in fluid communication. Connect to the discharge chamber (6). In this way, the outlet fluid of the compressor flows through the first discharge chamber (4) and through the first duct (8), the fluid is poured into the second chamber (5) and then the duct (3). Through the third chamber (6), so that the fluid is formed by the coupling of the first part (10a) of the third duct and the second part (10b) of the third duct. It is carried to the fourth chamber (7) by (10). In this sense, the discharge acoustic filter of the present invention includes an interconnection from the internal duct to the acoustic filter itself between the discharge chambers without the need for an external duct occupying a useful area within the compressor.

  The joint between the discharge chambers of the discharge acoustic filter is arranged inside to make the acoustic filter more compact, reducing the outer surface of the acoustic filter and consequently reducing the heat exchange with the sealed volume.

  In another embodiment, the discharge acoustic filter includes an additional discharge chamber formed by the combination of the intermediate region of the first element (1) and the intermediate part of the second element (2). This improves the attenuation of the pulse. In this way, the acoustic filter proposed by the present invention makes it possible to carry out with different amounts of discharge chambers located inside and in fluid communication. In one example, the discharge acoustic filter was implemented with four discharge chambers as described above. Furthermore, in another example, the acoustic filter was implemented with three discharge chambers.

  In one embodiment, a method of manufacturing an acoustic filter includes manufacturing all elements separately and according to their geometry. After the manufacture of all the elements, the third element (3) is placed on the extension of the second element (2), and the assembly of the first (1) and the second element (2) occurs in sequence.

  The first element (1) is manufactured through the following simultaneous steps: The steps include a step of manufacturing the cylinder cover (11) of the compressor, a step of manufacturing the first discharge chamber (4), a step of manufacturing the first portion (5a) of the second discharge chamber, and a third discharge chamber. Manufacturing the first portion (6a) and the step of manufacturing the first portion (7a) of the fourth discharge chamber, and further, the first discharge chamber (4) into the second discharge chamber (5). The step of manufacturing the connecting first duct (8) is added.

  The second element (2) is manufactured through the following simultaneous steps: The steps include a step of manufacturing the second portion (5a) of the second discharge chamber, a step of manufacturing the second portion (6a) of the third discharge chamber, and the second portion (7a) of the fourth discharge chamber. It is a manufacturing step.

  Furthermore, for fixing the first element (1) to the second element (2), the cited method among other methods such as ultrasonic welding with an adhesive, induction welding, laser welding, over-injection, etc. It is preferable to use at least one of the types not limited to the above.

  Another object of the present invention is a hermetic compressor including an acoustic filter according to the present invention. For the acoustic filter, a compressor cylinder cover including at least a first discharge chamber, a combination of the first element (1) and the second element (2) and an intermediate region formed by the third element (3), As mentioned above, including. Further, the intermediate region comprises a combination of at least a second discharge chamber (5), at least a third discharge chamber (6), and at least a fourth discharge chamber (7), wherein the discharge chamber is in fluid communication.

  In the discharge acoustic filter of the compressor, the second element (2) includes a flow path duct in which the third discharge chamber (6) is positioned in the second duct (9b) in the second element (2). Part (9b) of the second duct is included so as to be in fluid communication with the fourth discharge chamber (7) via (3).

  As shown in FIG. 7 through the transmission loss, the proposed acoustic filter reduces the temperature in the suction chamber by 2.4 ° C., reduces the temperature of the cylinder wall by 11.2 ° C., and reduces the energy efficiency by at least 1. It provides the same level of acoustic performance as a conventional acoustic filter, such as a 5% increase.

  The inventive concepts disclosed herein and illustrated in one or more forms were treated as industrial secrets and were not previously disclosed until the time of storage of this patent application. The industrial secret is an intangible asset of the applicant. Future publications of patent applications do not permit use by third parties, but to prevent reinvestment of development already owned by the applicant, (i) the industrial secret as of the filing date It is only provided as a notification to the third party of the existence of, (ii) Applicant's clarification, and (iii) facilitating the development of new improvements from the concepts disclosed herein. Therefore, any final commercial use requires the applicant's permission and improper use is subject to legal penalties. In this situation, from the disclosure of the concept of the present invention, those skilled in the art can consider other ways of accomplishing the present invention that are not identical to the mere illustration above, Apparently, the form is considered within the scope of the appended claims.

DESCRIPTION OF SYMBOLS 1 1st element 2 2nd element 3 3rd element 4 1st discharge chamber 5 2nd discharge chamber 5a Part of 2nd discharge chamber, 1st part of 2nd discharge chamber, 2nd part of 2nd discharge chamber 5b 2nd 2 Part of discharge chamber 6 Third discharge chamber 6a Part of third discharge chamber, first part of third discharge chamber, second part of third discharge chamber 6b part of third discharge chamber 7 fourth discharge chamber 7a Part of fourth discharge chamber, first part of fourth discharge chamber, second part of fourth discharge chamber 7b part of fourth discharge chamber 8 first duct 9 second duct 9b part of second duct 10 Third duct 10a Part of third duct, first part of third duct 10b Part of third duct, second part of third duct 11 Cylinder cover of compressor

Claims (7)

A discharge acoustic filter for a hermetic compressor,
a. At least a first element (1),
i. At least one first discharge chamber (4);
ii. A part (5a) of the second discharge chamber;
iii. A part (6a) of the third discharge chamber;
iv. A part (7a) of the fourth discharge chamber;
v. A first duct (8) connecting the first discharge chamber (4) to the second discharge chamber (5);
vi. A part (10a) of a third duct connecting the third discharge chamber (6) to the fourth discharge chamber (7);
At least a first element (1) comprising:
b. At least a second element (2),
i. A part (5b) of the second discharge chamber;
ii. A part (6b) of the third discharge chamber;
iii. A part (7b) of the fourth discharge chamber;
iv. A part (10b) of a third duct connecting the third discharge chamber (6) to the fourth discharge chamber (6);
v. A part (9b) of the second duct connecting the second discharge chamber (5) to the third discharge chamber (6);
Including at least a second element (2),
c. At least a third element (3),
i. Coupled to part (9b) of the second duct,
ii. At least a third element (3) connecting the second discharge chamber (5) to the third discharge chamber (6);
Including
Discharge acoustic filter, characterized in that the first element (1) is coupled to the second element (2) and is coupled to the third element (3).   The acoustic filter according to claim 1, characterized in that the first element (1) comprises at least one compressor cylinder cover (11). A method for producing a discharge acoustic filter for a hermetic compressor,
a. Producing a first element (1);
b. Producing a second element (2);
c. Positioning the third element (3) to the second element (2);
d. Assembling the first element (1) to the second element (2);
The manufacturing method of the discharge acoustic filter characterized by including. A method for producing a discharge acoustic filter, the step of producing a first element (1) comprising:
a. Producing a compressor cylinder cover (11);
b. Producing a first discharge chamber (4);
c. Manufacturing the first portion (5a) of the second discharge chamber;
d. Manufacturing the first portion (6a) of the third discharge chamber;
e. Manufacturing the first portion (7a) of the fourth discharge chamber;
f. Producing a first duct (8) connecting the first discharge chamber (4) to the second discharge chamber (5);
The manufacturing method of the discharge acoustic filter characterized by including. Manufacturing the second element (2) comprises:
a. Manufacturing the second portion (5a) of the second discharge chamber;
b. Manufacturing the second portion (6a) of the third discharge chamber;
c. Manufacturing the second portion (7a) of the fourth discharge chamber;
The manufacturing method of the discharge acoustic filter of Claim 3 characterized by the above-mentioned.   6. Production of a discharge acoustic filter according to any one of claims 3 to 5, characterized in that the steps of producing the first element (1) and / or producing the second element (2) occur simultaneously. Method. A hermetic compressor including a discharge acoustic filter, wherein the discharge acoustic filter is
a. A compressor cylinder cover (11) including at least a first discharge chamber (4);
b. An intermediate region formed by the coupling of the first element (1) and the second element (2) and the third element (3),
The intermediate region comprises a combination of at least a second discharge chamber (5), at least a third discharge chamber (6) and at least a fourth discharge chamber (7);
The middle region discharge chamber is in fluid communication with the middle region;
A hermetic compressor, comprising: