JP3750545B2 - Product manufacturing method, compressor technical information device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a method and apparatus for providing know-how from a component side to a product that causes a problem in combination with the component, such as a refrigeration air conditioner incorporating a compressor.
[0002]
[Prior art]
Conventionally, this kind of compressor manufacturing and sales business is carried out according to the flow shown in FIG. FIG. 8 is a flowchart showing a conventional system for determining a compressor when a compressor manufactured by a compressor manufacturer is sold to a unit manufacturer who is a customer. That is, the compressor manufacturer discloses the product information of the compressor to the unit manufacturer through a catalog etc. (S23), and the unit manufacturer selects the compressor that is considered optimal for the unit specifications of the company (S24), and evaluates the results. If it is determined (S25) and if OK, the compressor is determined (S26). As a flow for creating a product specification by providing a place to hear and discuss customer opinions using the Internet or the like, a technique disclosed in JP-A-11-25161 is known.
[0003]
[Problems to be solved by the invention]
However, in the compressor determination based on the flow of FIG. 8 as described above, it is necessary for the unit manufacturer to lead all the information necessary for determining the compressor. There was a problem that the development efficiency of unit makers deteriorated, such as re-selection. In addition, it is difficult to obtain information such as what kind of problems exist, and the know-how possessed by the compressor manufacturer is not systematically communicated to the unit manufacturer. There was a problem that is very difficult.
[0004]
A specific example will be described with reference to FIG. FIG. 9 is an example of a compressor determined by the above-described conventional system of FIG. 8 and a refrigerant circuit of a unit in which the compressor is mounted. Here, an air conditioning refrigerant circuit is used as an example. The refrigerant circuit includes a compressor 6, a condenser 7, a capillary tube 8, an evaporator 9, an accumulator 10, and a pipe 11 that connects each element. Conventionally, HCFC refrigerant as a refrigerant (not shown) and refrigerating machine oil (not shown) sealed in a compressor sealed container employs a mineral oil or an alkylbenzene oil that is compatible with HCFC as a main component. Was. Therefore, the refrigerating machine oil once discharged from the inside of the compressor with the discharge gas into the circuit can be dissolved in the refrigerant, flow in the circuit together with the refrigerant, and return to the compressor (oil return). By a simple device such as providing an oil return hole 10a in the accumulator, the unit manufacturer has been able to design a unit with little attention regarding oil return.
[0005]
On the other hand, in recent years, the movement to adopt HFC as a refrigerant instead of HCFC has been accelerated from the viewpoint of protecting the global environment. When using ester-based or ether-based lubricants that are compatible with HFC, the same design method can be used for oil return, but these lubricants have a higher lubricity than alkylbenzene due to their molecular structure. It is known that it is difficult to exhibit high reliability, particularly in the presence of impurities such as moisture and process oil, such as poor stability. Once unit production is started in an inappropriate state, it is directly linked to large-scale market failures such as clogging of capillaries due to sludge and other foreign substances that are generated and accumulated in the refrigerant circuit of the refrigeration cycle, and damage due to poor lubrication of the compressor. Therefore, there are technical problems that are difficult to determine by conventional evaluation, such as specifying the management level of impurities to be considered and selecting appropriate unit circuit components, and that require a long time for evaluation. In addition, when alkylbenzene is used for refrigerating machine oil, there is a merit that there is no major technical problem in terms of impurity management that should be considered in unit mass production because it has the same level of resistance with respect to the inclusion of impurities as before. Since it is difficult for unit manufacturers to determine whether oil is possible or not on the desk, an evaluation process that was previously unnecessary was required, such as changing the design of the unit and ensuring oil-repellency while repeatedly evaluating oil-return. Therefore, there was a problem that the unit development load increased. Or, there was a problem that the evaluation with alkylbenzene oil could not be completed due to concern about such development load, and as a result, the advantages of the incompatible oil could not be enjoyed. Furthermore, even if there is a system that requests a wide range of opinions on products, there is no system that can exchange the information that causes the above problems between the product manufacturing department and the parts manufacturing department like the unit manufacturer and the compressor manufacturer. There was a problem that necessary information could not be collected even if it made efforts individually.
[0006]
The present invention has been made to solve the above problems. For example, when a unit manufacturer determines a compressor, the technical know-how possessed by the compressor manufacturer is systematically transmitted to the unit manufacturer. The object is to obtain a method or apparatus capable of transmitting know-how on the part side such as a compressor incorporated in a product such as an air conditioner. In particular, it is possible to determine the compressor specifications that can be dealt with in the development of a unit having a significant change in refrigerant, such as natural refrigerant and HFC refrigerant, in a short period of time with few evaluation items. Furthermore, the present invention provides a system that can maintain the quality and ensure the production of highly reliable composite products even in the case of significant social changes such as the factory being sold, becoming independent, or changing manufacturing units. It is to get.
[0007]
[Means for Solving the Problems]
The product manufacturing method according to claim 1 of the present invention manufactures or sells parts such as a compressor used in a product to a product department having information on manufacturing or selling products such as refrigeration / refrigeration equipment and air conditioning equipment. When a parts department having information to manufacture or sell parts corresponding to products manufactured or sold by the product department, the parts department confirms product specifications including designation of a refrigerant not containing chlorine to the product department; The parts department selects a part specification corresponding to the confirmed product specification and supplies a sample part having this part specification to the product department. The parts department is based on the confirmed product specification and the selected part specification. The step of selecting the evaluation items necessary for the evaluation of the product, and the evaluation result obtained according to the evaluation items presented using the sample parts supplied by the product department The components segment is one which includes determining a component specifications and product specifications to verify, the.
[0008]
According to a second aspect of the present invention, there is provided a product manufacturing method in which a product division having information on manufacturing or selling a product such as a refrigeration / freezing device or an air conditioning device has a part which is a part of a product using a refrigerant not containing chlorine. A step of disclosing the product specifications to the parts department to be supplied; a part department selecting and presenting the specifications of the parts corresponding to the specifications of the products and the evaluation items that require evaluation of the products when operating the products; The department includes a step of determining a part to be used for the product based on the evaluation result of the evaluation item presented from the parts department, and the specification of the product can be changed by an alternative specification reversely presented from the parts department.
[0009]
The product manufacturing method according to claim 3 of the present invention is used for a product in a parts department in which a product department having information on manufacturing or selling products such as refrigeration / refrigeration equipment and air conditioning equipment supplies parts that are part of the product. Disclosing product specifications including information on piping to be performed and information on process oil used during product manufacture, and the parts department selects parts specifications corresponding to the product specifications and presents them to the product department; Comprises a step of evaluating the product based on the specification of the product and presenting the evaluation result to the product department, and the specification of the part presented by the parts department is selected based on the evaluation result.
[0010]
In the product manufacturing method according to claim 4 of the present invention, the parts division gives the product division an alternative specification for the specification of the product that is the type of some materials used in the product or the size of a part of the product. A reverse presentation step.
[0011]
In the product manufacturing method according to claim 5 of the present invention, the part is a compressor, and the product is a product using a refrigeration cycle in which natural refrigerant or HFC is circulated, and is used for at least oil return calculation that is the structure of the product. Based on product specifications that include either information or information on the organic materials used in the product, the parts department calculates oil repellency when the refrigeration oil uses incompatible oil as a refrigerant, or is compatible. The compatibility of the organic material when oil is used is determined, and the component specifications of the compressor, either a compatible compatible compressor or a non-compatible compatible compressor, are selected.
[0012]
The information for oil return calculation of the product manufacturing method according to claim 6 of the present invention includes information on the pipe diameter of the refrigeration cycle, heat exchanger information, presence or absence of receivers and accumulators capable of storing refrigerant, and the structure thereof, Or the information on organic materials includes the type and location of organic materials used in refrigeration cycle equipment, the type and location of process oil used in the manufacturing process, the residual amount of process oil in the product refrigeration cycle, the product Any one or more of the remaining water content in the refrigeration cycle.
[0013]
In the product manufacturing method according to claim 7 of the present invention, the evaluation item for evaluating the compressor compatible with the compatible oil includes the sludge resistance evaluation regarding the throttle blockage of the refrigeration cycle. Is supplied to the product department, it is filled with contamination corresponding to process oil and moisture remaining in the refrigeration cycle.
[0014]
In the product manufacturing method according to claim 8 of the present invention, the evaluation items for evaluating the compressor compatible with incompatible oil are the discharge superheat confirmation or the observation of the oil level inside the compressor in the operation state where the suction superheat is not applied, and the stop. The component specifications include at least one of confirming the transition of the discharge superheat at the time of starting the compressor from the state where the liquid refrigerant is stored in the compressor after being allowed to cool and observing the transition of the oil level inside the compressor and the state of the refrigerant. When the parts compressor supplies the sample compressor to the product department, the compressor is observable inside.
[0015]
In the product manufacturing method according to claim 9 of the present invention, the part is a compressor, and the product is a product using a natural refrigerant or a refrigeration cycle in which HFC is circulated. The product specifications include the type, product refrigeration capacity, temperature used, amount of refrigerant sealed in the refrigeration cycle, and alternative product specifications that can be presented by the parts department are the types of organic materials used in the refrigeration cycle, used during product manufacture Includes at least one of the type of process oil and pipe diameter.
[0016]
In the product manufacturing method according to claim 10 of the present invention, the part is a compressor, and the product is a product using a natural refrigerant or a refrigeration cycle in which HFC is circulated. The product specifications including the type, product refrigeration capacity, operating temperature, amount of refrigerant sealed in the refrigeration cycle, and the product department confirms with the product department include information on the pressure strength against the refrigerant pressure of the refrigerant circuit parts, Includes vibration resistance strength of compressor connection piping.
[0017]
In the product manufacturing method according to claim 11 of the present invention, the part is a compressor, the product is a product using a refrigeration cycle in which natural refrigerant or HFC is circulated, and the product specification is general information of the product. Parts specifications presented by the parts department, including the type of refrigerant, type of power source, product refrigeration capacity, operating temperature, amount of refrigerant sealed in the refrigeration cycle, pipe length, and information for calculating oil return or organic material Includes the displacement of the compressor, the corresponding power source, the compressor leg support point pitch, and the discharge suction relationship.
[0018]
In the compressor technical information device according to claim 12 of the present invention, a unit department having unit information for manufacturing or selling units such as refrigeration / refrigeration equipment and air conditioning equipment manufactures or sells a compressor corresponding to the unit. A first transmission means for transmitting information including the type of refrigerant of the unit, the type of power source, the refrigeration capacity of the product, the temperature to be used, and the amount of refrigerant enclosed in the refrigeration cycle to the compressor section having the compressor information; The machine department communicates to the unit department the compressor specifications including the refrigerant discharge amount and the type of power supply, and information on the evaluation items for unit operation when using refrigeration oil that is compatible or incompatible with the refrigerant. A second transmission means that operates and a computing means that is provided in the compressor department or unit department to calculate evaluations of evaluation items, or that is provided in the compressor department or unit department. Is data for determining the evaluation of the evaluation item was and an evaluation item processing means having at least one of the stored database.
[0019]
The compressor technical information device according to claim 13 of the present invention manufactures a compressor corresponding to a unit to be manufactured or sold to a unit sector in which the compressor section manufactures or sells refrigeration / refrigeration equipment, air conditioning equipment, etc. Or, when selling, the compressor department checks the unit specifications including the unit refrigerant type, power source type, product refrigeration capacity, operating temperature, and amount of refrigerant sealed in the refrigeration cycle, and responds to this specification Select compressor specifications including displacement and power supply type, and select whether the refrigerating machine oil used in this compressor is compatible or incompatible with the refrigerant, and transmit the evaluation items to be evaluated during unit operation A communication means for transmitting information between the compressor department and the unit department, and an evaluation item processing means for evaluating the evaluation items provided in the compressor department or the unit department. , Determined by evaluation of the evaluation items compressor specifications and equipped with is the unit specifications are used in the unit.
[0020]
In the compressor technical information device according to claim 14 of the present invention, the specification refrigerant of the unit is a natural refrigerant or HFC, and when the incompatible oil is used as the selected compressor specification, the oil return performance is calculated. Confirm the unit specifications necessary for this, and the compressor department will calculate the oil return performance and disclose the result to the unit department, or, if compatible oil is used, residual foreign matter or process oil remaining in the refrigeration cycle Confirm the unit specifications necessary for determining the quantity, and disclose the results selected from the stored database to the unit department.
[0021]
The unit specifications necessary for calculating the oil return performance of the compressor technical information device according to claim 15 of the present invention are: pipe diameter, heat exchanger information, presence / absence of components for storing refrigerant in the refrigeration cycle, and Contains information about this structure.
[0022]
The disclosed oil return performance calculation result of the compressor technical information device according to claim 16 of the present invention is determined by the lower limit value of the refrigerant flow rate at which the forward fluidity of the refrigerating machine oil can be secured, the refrigerant flow rate, and a comparison between the two. Information on the location and operating conditions in the refrigeration cycle where the oil return performance is a problem is included.
[0023]
In the compressor technical information device according to claim 17 of the present invention, as an incompatible oil-compatible evaluation item, the discharge gas superheat confirmation in each operation of liquid back and stagnation start-up, and the oil level in the compressor during operation are confirmed. In addition, as a compatible oil-compatible evaluation item, the evaluation of sludge resistance related to the clogging of the throttle portion performed based on the residual amount of foreign matter or process oil remaining in the refrigeration cycle and the residual moisture content of the refrigeration cycle is included. .
[0024]
The compressor technical information device according to claim 18 of the present invention manufactures a compressor corresponding to a unit to be manufactured or sold to a unit section in which the compressor section manufactures or sells refrigeration / refrigeration equipment, air conditioning equipment, and the like. Or, when selling, the compressor department confirms the unit specifications including the type of refrigerant of the unit, the type of power supply, the refrigeration capacity of the product, the temperature used, and the amount of refrigerant sealed in the refrigeration cycle, and responds to this specification Select the compressor specifications including the displacement and the type of power supply, and convey the evaluation items to be evaluated during operation of the unit according to the selection of whether the refrigeration oil used in this compressor is compatible or incompatible with the refrigerant. A communication means for transmitting information between the compressor department and the unit department, and an evaluation item processing means for evaluating the evaluation items provided in the compressor department or the unit department. For example, determine the compressor to be used in the evaluation of the evaluation item by the sample compressor supplied from the compressor department.
[0025]
In the compressor technical information device according to the nineteenth aspect of the present invention, the internal compressor-compatible sample compressor can be observed.
[0026]
In the compressor technical information device according to claim 20 of the present invention, the refrigerating machine oil of the sample compressor for incompatible oil is colored.
[0027]
In the compressor technical information device according to claim 21 of the present invention, the unit specification includes information on the process oil used in the unit department and the information on the organic material including the type and location of the organic material component, and the compressor specification is organic. In the case of the applicability and non-applicability of materials, alternative specifications are presented.
[0028]
The compressor technical information device according to claim 22 of the present invention can confirm the unit specifications including the pressure resistance strength of the refrigerant circuit components of the refrigeration cycle or the compressor connection piping specification information, and can present an alternative specification if the strength is insufficient. It is.
[0029]
In the compressor technical information device according to claim 23 of the present invention, the unit specification and the compressor specification information are transmitted on the communication network.
[0030]
DETAILED DESCRIPTION OF THE INVENTION
Embodiment 1 FIG.
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. For unit manufacturers, refrigeration cycles such as their own products, refrigeration equipment such as refrigerators and showcases, refrigeration equipment such as refrigeration warehouses, air conditioning equipment such as air conditioners and dehumidifiers, and hot water supply equipment are used. How to select a suitable compressor for the product to be used in the refrigeration cycle and to determine it efficiently will improve the unit's completeness and competitiveness in the market. This is an important factor in reducing the development costs of manufacturers and favoring corporate management. In general, a unit manufacturer selects a compressor for evaluation based on the information of the compressor manufacturer disclosed in a catalog, etc., performs a necessary evaluation based on the accumulated know-how of the unit manufacturer, and decides the compressor to be used. ing.
[0031]
On the other hand, in the cooling of this embodiment, as will be described in detail below, the compressor manufacturer, which is a component manufacturing department, effectively supports technical information to the unit manufacturer, which is a product manufacturing department such as a refrigerator. This makes it possible to determine an optimal compressor efficiently without depending on the level of accumulated technical know-how of unit manufacturers as in the past.
[0032]
FIG. 1 is a flowchart of a technical information system showing a flow of technical information exchanged between a product manufacturing department that is a unit manufacturer and a parts manufacturing department that is a compressor manufacturer according to Embodiment 1 of the present invention. The features of this embodiment will be described below for each step in the drawings.
[0033]
In the compressor product information disclosure step S1, the unit manufacturer starts unit design by disclosing the product information to the unit manufacturer in the form of various information transmissions in the same manner as the conventional flow described in FIG. In doing so, it provides basic information for assuming a specific compressor and triggers unit development. As in the past, based on this information, the unit manufacturer can consult with the compressor manufacturer about the supply of the compressor for evaluation.
[0034]
In the next customer unit specification confirmation step S2, in order to select a more appropriate compressor, the compressor manufacturer who has received a consultation on the supply of the compressor from the unit manufacturer or who has been consulted about the supply of the evaluation compressor This is a step for confirming the specifications of the product. By knowing the refrigerant used, power supply, refrigeration capacity, operating temperature, amount of refrigerant enclosed, and pipe length of the unit, the compressor manufacturer can determine the optimal displacement of the compressor corresponding to the unit and the sample provided for evaluation. A compatible power supply can be selected. It should be noted that the refrigerant used, power supply, and refrigeration capacity are essential information for determining the displacement of the compressor and the corresponding power supply. This information is necessary for confirming that the lubrication state sufficient to exhibit the planned characteristics is secured. For example, if the amount of filled refrigerant is larger than expected, the lubrication condition may deteriorate due to dilution of the refrigerating machine oil, which will affect the selection of the viscosity of the lubricating oil, and if the pipe length is longer than expected, This is because when the refrigeration oil adheres, it is necessary to consider factors such as the possibility that the amount of oil in the compressor hermetic container decreases and the lubrication state deteriorates.
[0035]
Further explanation will be added. The operating temperature includes a condensing temperature range, an evaporating temperature range, and the like determined by the type of unit (refrigerator, air conditioner, water heater, panel cooler, dehumidifier, etc.) and usage method. The refrigerant is determined by the unit manufacturer in consideration of the ease of handling, unit design, market distribution, social requirements, various regulations, etc., depending on the operating temperature. For example, in the past, CFC refrigerants and HCFC refrigerants such as R22 for air conditioning, R12 for freezing and refrigeration, and R502 for freezing, etc. have been used in recent years. Refrigerants or natural refrigerants such as hydrocarbons and carbon dioxide are being adopted.
[0036]
Various types of refrigerating machine oil, which is lubricating oil sealed in the compressor, can be considered for these various refrigerants. In the past, refrigeration oil has been required to be compatible with the refrigerant. The reason for this is that when the refrigeration oil is taken out from the compressor into the unit circuit, that is, when it is circulated in the refrigeration cycle together with the refrigerant, if it is compatible with the refrigerant, it moves with the refrigerant and returns to the compressor. This is because it adheres to a heat exchanger and affects the performance. Further, as a problem different from compatibility, impurities such as moisture and air may be mixed during the manufacture and installation of the unit, and it is required to be a chemically stable substance such as being exposed to high temperatures during operation.
[0037]
FIG. 4 shows the characteristics of the difference in properties when a typical refrigerant and refrigeration oil are combined. Is the quality of refrigeration oil, which is a lubricating oil, as good or better than the conventional combination of HCFC refrigerant and mineral oil in terms of thermal stability, hydrolyzability, hygroscopicity, compatibility with refrigerant, and manufacturing cost? , It is summarized in three stages, slightly inferior or inferior. Since HCFC refrigerant has a small polarity due to its molecular structure, both mineral oil and alkylbenzene having a small polarity are compatible. On the other hand, HFC refrigerants having a large polarity are not compatible with these lubricating oils. Refrigerating machine oils having high polarity, such as ester oils (for example, polyol esters) and ether oils (for example, polyvinyl ether), are compatible with HFC. However, since the refrigerating machine oil having a large polarity tends to have a high affinity with water molecules having the same polarity, it needs to be handled with care in preventing the mixing of moisture. This is because the water once dissolved in the refrigerating machine oil may have an adverse effect on unit reliability, such as freezing in the capillaries and alteration of organic material parts such as resin and rubber. The advantages and disadvantages are summarized as follows. -Ether oil: While it has the advantage of being compatible with HFC refrigerant, it has the disadvantage of low chemical stability such as high hygroscopicity and weakness to heat. -Ester oil: While it has the advantage of being compatible with HFC refrigerant, it has the disadvantage of low chemical stability such as hygroscopicity and easy hydrolysis. -Alkylbenzene oil: It has the advantages of low hygroscopicity and high chemical stability against moisture and temperature, but it does not have sufficient compatibility with HFC refrigerants for oil return.
[0038]
As described above, various refrigerating machine oils can be considered for various refrigerants. Considering the advantages and disadvantages of each unit, select a compressor that uses the refrigerant and the optimal refrigerating machine oil that can efficiently demonstrate the performance of the product for unit manufacturers and ensure reliability including not only the short term but also the long term. It is necessary to ask the compressor manufacturer for information on these. In the present invention, such refrigerating machine oil can be selected through each step of the system FIG. Although the explanation is given here as a unit manufacturer and a compressor manufacturer, it is a matter of course that information transmission between manufacturing departments may be performed without being bound by the inter-company frame when the same company is estranged due to independent profitability. Furthermore, the same can be said for a system in which sales and sales departments that gather information from manufacturing departments are interposed, or through an intermediate contractor and consultant department.
[0039]
The description of FIG. 1 is continued. One of the features of the present invention is that if the refrigerant used in step S2 is HFC or a special refrigerant, what compressor should be selected for the unit, the compressor manufacturer will ask the customer as a sample for evaluation. Based on the specific technical know-how possessed by the compressor manufacturer, the unit manufacturer determines whether the compressor to be supplied is compatible with non-compatible oil, or the department in charge of products and parts The point is that it can be selected through discussion, that is, by exchanging information. As information to be exchanged, there is information on organic materials used in the unit or information on oil return performance. In the organic material information confirmation step S3a, the type, location and amount of the organic material used in the unit are confirmed. In subsequent S4a, the compatibility of the confirmed organic material with the refrigerant or the lubricating oil is determined. As part of the information confirmation step S3b for calculating the oil return performance, unit specification information for calculating whether the oil return performance is a problem when incompatible is selected, specifically, the pipe diameter, heat exchange This is a step of confirming the number of condenser paths, information on the diameter of the heat exchanger pipe, the presence or absence of a receiver or accumulator for storing excess refrigerant, the structure, and the like from the customer's product manufacturer.
[0040]
In addition, when confirming the customer's unit specifications in S2, if the unit manufacturer confirms the information on the organic materials (process oil, organic material parts) to be used, the compressor manufacturer will consider whether the organic materials can be applied. However, in the case of no, an alternative material can be presented. Many organic materials are used in parts that may come into contact with refrigerant circulating in the refrigeration cycle, that is, discharged lubricating oil, process oil remaining in piping, and the like. Target parts that use organic materials include expansion valves, four-way valves, check valves, solenoid valves, charge plugs, service valves, and ball valves. Organic materials include resin materials such as nylon and rubber such as hydrin. Material. Compressor specifications can be applied to the organic materials of these parts by referring to a database evaluated by a life test etc. corresponding to the type of refrigerant or oil, and whether it is applicable or an alternative to resin materials such as polyphenylene sulfide As a result, information can be transmitted from the component side to the product side.
[0041]
In the subsequent incompatible oil repellency calculation step S4b, when the compressor manufacturer as the parts manufacturer selects the incompatible oil based on the information obtained in step S3b, the oil repellency is calculated as will be described later. .
[0042]
In the next compressor / corresponding refrigeration oil selection step S5, the determination results and calculation results made in step S4ab are disclosed to the unit manufacturer from the compressor side, and the unit manufacturer and the compressor manufacturer share information on oil return properties. This is a step of consulting with the unit manufacturer, that is, checking the information and selecting whether the refrigerating machine oil should be compatible or non-compatible.
[0043]
Add a supplementary explanation. The term “incompatible” does not mean that there is no compatibility, but it means that the oil return property required for reliability cannot be ensured only by the flow of refrigerating machine oil dissolved in the refrigerant. Therefore, a case having weak compatibility or insufficient compatibility is handled as incompatible. Although the compatibility is briefly explained in FIG. 4, the degree of solubility of the refrigerant and oil varies depending on the combination of the refrigerant and oil, or the temperature. Differently, the judgment of suitability will change.
[0044]
In addition, a description will be added regarding the calculation of oil repellency. FIG. 5 is a flowchart of the oil return calculation, and FIG. 6 is a diagram illustrating a model showing an example of the force received by the incompatible oil droplets in the pipe. When the refrigeration oil has a lower density than the liquid refrigerant, the refrigeration oil receives buoyancy. As shown in FIG. 6A, in the case where the buoyancy in the pipe 11 is opposite to the flow of the liquid refrigerant, the forward fluidity of the refrigerating machine oil is not ensured if the force received by the refrigerant flow is less than the buoyancy. . The same applies to the case where gravity is applied in the opposite direction to the flow of the gas refrigerant as shown in FIG. In such a case, it is obvious that a flow rate of a certain level or more is necessary to ensure the forward fluidity of the refrigerating machine oil. As described above, the refrigerant flow rate necessary for causing the refrigerating machine oil to flow in the forward direction against buoyancy and gravity is referred to as the oil return limit flow rate. When the operating conditions are given, the oil return limit flow rate mainly determined by the pipe diameter is compared with the actual refrigerant flow rate calculated from the displacement of the compressor, compressor speed, and pipe diameter. It is possible to consider the oil-repellent properties of the pipes. Needless to say, even if the refrigeration oil has a higher density than the liquid refrigerant, it can be calculated by appropriately modeling the flow velocity direction.
[0045]
The description of FIG. 1 will be continued again. Another major feature of the system according to the present invention is that the evaluation item is based on extensive technical know-how possessed by the compressor manufacturer, depending on whether the selected refrigerating machine oil is compatible oil or incompatible oil. In addition, the specifications of the evaluation sample compressor are set separately in advance.
[0046]
First, the case of compatible oil will be described. The compressor manufacturer determines an evaluation item required when the compatible oil is selected in the compatible oil-compatible evaluation item determination step S6a, and discloses it to the customer. This item includes residual production contamination in the unit, confirmation of the control level of the amount of water, and evaluation of sludge resistance related to blockage of the throttle. In-unit residual manufacturing contaminants are those in which foreign matter when machining pipes, heat exchangers, etc., process oil used for processing assembly, etc. are left in the refrigeration cycle. As mentioned above, refrigerating machine oils such as esters and ethers that are compatible with HFC refrigerants are less chemically stable than incompatible oils such as alkylbenzenes, so they react with substances contained in manufacturing contaminants. There is a risk that the properties may be altered by the intervention. In addition, ester oil is easily hydrolyzed due to its molecular structure, and its properties may be altered by the presence of moisture. It is known that when the sliding part of the compressor is in a severely lubricated condition locally, the reaction of the vapor develops into a more complicated reaction containing metal atoms and sludge is generated. Sludge accumulates especially on the throttle part of the refrigeration cycle, blocking the throttle part and causing product failure. Therefore, when a compatible oil that is compatible with a refrigerant is used as the refrigerating machine oil, it is necessary to sufficiently manage so that manufacturing contamination and moisture do not remain in the pipe in the unit manufacturing process. It can be confirmed that the set management level is appropriate by carrying out the sludge resistance evaluation regarding the throttle blockage. Needless to say, the level of residual contamination and moisture content should be determined in consideration of various factors such as unit installation work and maintenance performed by opening the refrigeration cycle.
[0047]
Next, in a compatible oil-compatible sample determination step S7a, a compressor that is an appropriate evaluation sample for the compatible oil-compatible evaluation item determined in step S6a is determined and sent to the customer. Here, a sample compressor is provided to the product manufacturer, and the form in which the parts department proposes what kind of investigation and inspection is necessary during the experiment in this product department is explained. This is the performance of the refrigeration cycle. This is also because it cannot be accurately grasped unless all the load conditions are combined. However, when past data is available, calculation processing or simulation confirmation may be performed to determine evaluation items. In either case, both the product department and the parts department communicate information based on the data, and the product department can select a compressor that is surely and easily considered to have good performance and quality such as efficiency. I can do it.
[0048]
Next, in the evaluation result confirmation step S8a, the compressor manufacturer confirms the evaluation result, and if necessary, each manufacturer improves the unit and the compressor specifications. The product department determines the specifications (S9).
[0049]
The most important unit information for determining the evaluation items for the compressor compatible with the refrigerant is what process oil is used in which process by the unit manufacturer during the product production. Based on the type of process oil mixed into the refrigeration cycle and information on the application, the residual amount of contamination such as manufacturing process oil remaining in the unit piping and parts is estimated. More preferably, if the residual quantity can be grasped by the unit manufacturer, the information is more direct. Furthermore, as necessary unit information, there is a level of the residual moisture content of the product. If there is process oil information and residual moisture information, or residual contamination information, it is determined according to compatibility and incompatibility by accessing the production contamination database, which is a database owned by the compressor manufacturer. It is possible to simulate whether the level has been reached. In the case of a compressor using compatible oil, the level of moisture management is strictly suppressed as a measure against hydrolysis. The evaluation items can be determined even if the unit information is only the process oil information. The output of the unit information obtained and transmitted to the unit manufacturer as the compressor information, which is the simulation result, is the production contamination such as the component, form, viscosity, and overheat reaction analysis described in the production contamination database. Information, recommended values for residual moisture levels, and alternative material information if there are problematic process oils. However, even if only process oil is included as unit information, the amount of process oil remaining in foreign matter and piping is estimated from the database data accumulated based on this and the given application, and moisture management The level of quantity can be presented. As a result, products that do not have clogging at locations where there is a problem with the cycle, such as the throttle, and products that do not cause contamination due to contamination in the heat exchanger or wear sludge generated by hydrolysis, will be finished. That can be communicated through mutual consultation.
[0050]
On the other hand, in the case of incompatible oil, the compressor manufacturer determines the evaluation items required when selecting incompatible oil in the incompatible oil compatible evaluation item determination step S6b, and discloses it to the customer. . This item includes confirmation of discharge gas superheat in each operation of liquid back and stagnation start-up, and observation of the oil level in the compressor and the liquid refrigerant during operation.
[0051]
Add a supplementary explanation. The liquid back operation refers to a state in which the suction gas is not superheated and the liquid refrigerant is mixed with the compressor suction gas. That is, it is an operation state in which inhalation superheat is not applied. In an excessive liquid back, liquid refrigerant exists in the compressor hermetic container, and supply of the refrigerating machine oil that is incompatible with the refrigerant to the compression mechanism may be hindered. In addition, when the compressor is stopped for a long time, liquid refrigerant may be stored in the compressor container (this state is called “sleeping”). There is a possibility that the supply of the refrigerating machine oil that is incompatible with the compression mechanism section may be hindered. Confirming the discharge superheat and observing the oil level with a compressor with a window are effective as means for confirming that there is no problem in terms of the reliability of the compressor by operating the operating state with a sample compressor. In addition, the structure which can observe the state of a compressor internal oil level and the state of a liquid refrigerant with an optical fiber etc. may be sufficient. Cases where the liquid back operation state is assumed include, for example, during and before and after the defrosting operation, and after adjusting the opening of the movable throttle valve. The compressor manufacturer can propose more specifically the operating state of the unit to be evaluated to the customer based on the know-how of incompatible oil application technology. Such a proposal is presented as an evaluation item in a productive and instructive manner.
[0052]
For the compressors that are incompatible with the refrigerant, the priority of the evaluation items is to first determine the oil return by calculation, secondly to check the oil return by observing the oil level with a sample compressor, etc. First, the superheat from the actual machine is detected to confirm the liquid back, and fourth, the liquid level in the compressor and the state of the liquid refrigerant are observed to confirm the lubrication condition. The unit information for obtaining oil repellency will be described in detail later when FIG. 5 is described. Discharge gas superheat, oil level check, throttle blockage, etc. can be implemented when supplying a sample compressor and testing the actual unit, but it may be judged only based on the calculation result of the oil return performance. Note that if excessive liquid back occurs, the value of the discharge gas superheat becomes a very small value. Conversely, if the discharge gas superheat is confirmed, it can be determined whether the liquid back state is excessive. The oil return performance can be examined by calculation without using the above experiment. Also, by observing the oil level in the compressor to check the oil return performance, that is, to check that the lubricating oil is not discharged during the refrigeration cycle and cause poor lubrication, and to observe the presence of the liquid refrigerant, The oil level observation is effective because it can be confirmed that no lubrication failure occurs. As a result, there is information that can be finished into a product that does not block at the position where the cycle is a problem, such as a throttle, a product that does not deteriorate in performance due to oil film adhesion in the heat exchanger, or a product that does not cause poor lubrication of the compressor. It is communicated through mutual consultation.
[0053]
FIG. 5 is a flowchart of oil repellency calculation. This calculation is performed in step S4b after confirming the oil return calculation information in step S3b of FIG. S101 is a step of confirming the specifications of the oil return calculation unit from the oil return performance calculation information I2 in the unit information, S102 is a step of assuming the calculation target location in the circuit, and S103 is an assumption of the refrigerant state as gas or liquid S104 is a step of calculating the refrigerant density based on the above assumption, S105 is a step of determining the calculation model as an upward flow or a downward flow, S106 is a step of calculating an oil return critical flow velocity, and S107 is a refrigerator oil at a specific location. In step S108 for confirming fluidity, S108 is a flow for calculating the oil return performance in the step of changing the assumption and repeatedly calculating. On the other hand, the basic unit information is confirmed in S112, and operating conditions such as the discharge pressure, the suction pressure suction temperature, and the temperature before the expansion valve are assumed in S109. Further, in step S113, the amount of displacement of the compressor and the rotational speed are determined from the unit basic information. S114 is a step of calculating the refrigerant circulation amount, and S115 is a step of calculating the refrigerant flow rate. Further, there are a step S110 for calculating the cross-sectional area of the flow path in the pipe at the calculation target, a step S111 for determining the lubricating oil properties, the presence / absence of a receiver and an accumulator, and a step S116 for confirming the structure. As shown in FIG. 5, it is possible to obtain step S117 for comprehensively considering the oil return property from the information for oil return calculation and the unit basic information. The oil rebound information I5 on the compressor side is collected together with the oil rebound limit I, the refrigerant flow rate, the location where the oil rebound property is a problem, and the refrigerant state together with the conclusion of the oil rebound property.
[0054]
Next, in the non-compatible oil-compatible sample determination step S7b, an appropriate evaluation sample is determined for the non-compatible oil-compatible evaluation item determined in step S6b, and is sent to the customer. The sample includes a compressor with a viewing window in which colored refrigerator oil is enclosed. Since the state can be visually judged with this sample, the evaluation result is clear and easy to judge. Next, in the evaluation result confirmation step S8b, the unit manufacturer confirms the evaluation result and transmits the result, or the compressor manufacturer confirms the result directly, and the respective manufacturers improve the unit and the compressor specifications as necessary. Then, the final compressor specification and the unit specification to be mounted are determined (S9). As a result, product development, which has been considered as individual know-how, has been determined only by the unit manufacturer, and incorporates the know-how of the parts department to complete a product with high quality and high performance in a short time. Become.
[0055]
By the way, the compressor specifications finally determined in the unit specification / compressor use determination step S9 include at least the leg support point pitch (P) and the discharge pipe diameter (shown in FIG. D1) and information on the suction pipe diameter (D2). FIG. 7 shows an external view of the compressor, 6 is a compressor, 12 is a compressor leg, 13 is an accumulator, 14 is a discharge pipe, and 15 is a suction pipe. These are the basic dimensions of the part in direct contact with the unit, and it is obvious that the unit specifications are not determined as long as this dimension is uncertain. 7 shows the appearance of a vertical rotary compressor as an example, but various types of compressors such as reciprocating and scrolling, vertical and horizontal axes, and the like can be used. Not a thing. Thus, the unit specification is determined by clarifying the joint part. Furthermore, the discussion and consultation can be performed by performance calculation through information exchange or by testing the sample-provided compressor, and the determination of the compressor will be made up to the convenient step of the flow in Fig. 1 depending on the situation. Become.
[0056]
In S5, in consultation with the unit manufacturer, when selecting whether the refrigerating machine oil is compatible or non-compatible oil, the evaluation items determined in advance in steps S7a and S7b are disclosed to the unit manufacturer and used as judgment materials. It can also be provided. If there is a technology possessed by the unit manufacturer, it is possible to determine the compressor to be used by picking up past data from the database by receiving such information.
[0057]
Needless to say, specific oil types and viscosities as well as compatible and incompatible can be selected in step S5. It goes without saying that additives such as extreme pressure agents and antioxidants can be selected in the same manner, and are reflected in the sample usage determined in steps S7a and S7b.
[0058]
In addition, when confirming the customer unit specifications in step S2, if the compressor connection piping specification information such as the pressure resistance strength or material and thickness of the refrigerant circuit components is confirmed, it is possible to examine the strength according to the operation state. If the strength is insufficient, the compressor manufacturer can present dimensions and materials as alternative specifications. As a specific position, whether or not the diameter and wall thickness of the heat exchanger pipe and extension pipe of the unit are appropriate can be judged and maintained including the operating state of the compressor. This problem is one of the know-how on the compressor side that can estimate abnormal pressure when using high-pressure refrigerant.
[0059]
In addition, for compatible oils, the compressor manufacturer evaluates the residual moisture level through the steps of S6a, S7a, and S8a. Therefore, the compressor manufacturer also sets the condition, amount, and installation position of the type of dryer and the size of the molecular sieve. Alternative specifications can be proposed from information and database queries.
[0060]
In the system described above, the process related to information exchange can be performed using a communication network such as the Internet as described below.
[0061]
FIG. 2 is an explanatory diagram schematically showing the features of the present system when a network is used. I1 is basic unit information in the unit information. The type of refrigerant used in the unit, the type of power source, the unit performance conditions such as the refrigeration capacity of the unit, the operating state of the refrigeration cycle such as the operating temperature and the amount of refrigerant contained. The basic conditions of the device related to the structure such as the pipe length are included. I2 is the oil return calculation information and the pipe diameter, heat exchanger path number, heat exchanger pipe diameter, etc. necessary for calculating the refrigerant flow rate in the refrigeration cycle, and the receiver that may store the oil and not return it to the compressor , The presence or absence of a refrigerant reservoir such as an accumulator and the structure thereof are included. I3 specifically includes the part of the refrigeration cycle and the name of the organic material used for the part as described above in the organic material information. I4 is basic information of the compressor selected from the compressor specifications, and includes the amount of displacement and the type of power supply. I5 is non-compatible oil return information, data on the return of non-compatible oil such as oil return limit flow rate and refrigerant flow rate, information on oil return such as the location where oil return is problematic and its refrigerant condition, and compression Whether or not a device for collecting discharged oil such as an oil separator is provided in the vicinity of the machine discharge port and its performance. I6 is evaluation item information for the evaluation items described above that are compatible with compatible oil and / or compatible with non-compatible oil. I7 includes the result of determining whether or not the organic material information I3 transmitted from the unit is applicable and alternative material information as described above.
[0062]
In the system of FIG. 2, the unit manufacturer has the basic unit information (I1) corresponding to the information transmitted in step S2 through the communication network to the compressor manufacturer, the organic material information (I3), and the oil return calculation corresponding to S7. The compressor manufacturer receives the information (I2) for use, and the compressor manufacturer receives the selected compressor specification information (I4) corresponding to the information transmitted in step S2 through the communication network to the unit manufacturer. I7), the information (I5) related to oil repellency performed in step S4 disclosed in step S5, and the information (I6) related to evaluation items disclosed in steps S6b and S6b.
[0063]
In addition, calculations relating to oil repellency and databases relating to organic material compatibility may be automatically coupled to the communication network, so that the unit manufacturer can connect the necessary information shown in the figure to the database. By accessing together with the necessary signals for communication, the know-how possessed by the compressor manufacturer regarding system development issues can be obtained systematically in a very short time. Although described as a compressor manufacturer here, it goes without saying that similar processing is possible even in an information processing center having only a storage device such as a communication device and a database, and an arithmetic processing unit, even if it is not a manufacturer. Nor. Such a technical information processing center can not only provide necessary information to the unit side, but can also send the same information to the compressor side and instruct the supply of the sample compressor. Furthermore, such a database can be provided on the unit side, in which case the latest data is always supplied and updated from the compressor side.
[0064]
FIG. 3 is a technical information system diagram. S10 is an input form display step displayed on the terminal device 3 on the unit side 1 and displays an input form based on the input request information form I8 obtained from the Web server 4 on the compressor side 2. S11 is a step of inputting the information of the unit to be examined according to the input form. The input unit information 9 includes basic unit information I1, oil return calculation information I2, organic material information I3, etc. by communication to the compressor side. Is transmitted. S12 is a display step of the result of displaying the compressor information transmitted from the compressor side 2 to the unit side 1 on the terminal device on the unit side. This result is a compressor for performing arithmetic processing for selecting the compressor and the lubricating oil. Included is the compressor information I10 selected in the lubricant selection step S15, that is, selected compressor specification information I4, incompatible oil return information I5, evaluation item information I6, organic material compatibility information I7, etc. . S13 is a unit development evaluation step for evaluating a transmitted evaluation item and evaluating a product. However, when a sample compressor is supplied from the compressor side or when a unit replacement specification draft is presented, the evaluation items are reviewed separately to determine the added evaluation sample, evaluation item determination, unit replacement specification draft, etc. Unit replacement specification proposal information, evaluation item detailed information, and evaluation sample I11 are sent to the unit side via communication or logistics as necessary via the creation step S18. Is evaluated. Based on the result of step S13, the compressor specifications and the mounted unit specifications are determined by the unit manufacturer in S14. However, the evaluation result information I12 in step S13 is immediately transmitted from the unit side 1 to the compressor side 2 through communication or the like, and this information I12 is compared with the data stored in the database 5 to evaluate the evaluation result on the unit side. Is confirmed in the customer evaluation result confirmation step S19. This confirmation is determined in the determination step S20, and when a problem is found, it is possible to review in step S20 and evaluate the information I11 such as a unit alternative specification proposal sent to the unit side. . On the other hand, if there is no problem in the determination in step S20, the compressor specification and the mounted unit specification are determined in step S21, and the determination result disclosure I13 is transmitted to the unit side as the compressor information. In S14, the compressor specifications and the mounted unit specifications are determined, and the unit development is completed.
[0065]
FIG. 3 is an explanatory diagram schematically showing the overall flow of the present system when the network is used in this way. The compressor manufacturer 2 discloses an input request form I8 to the unit manufacturer 1 in the form of a homepage or the like on the Web server 4, and the unit manufacturer 1 uses the terminal device 3 connected to a network (public network) such as the Internet. The form is displayed, S10, information is input according to the form, and S11 is returned. The compressor manufacturer performs the oil return calculation based on the information I9 about the unit returned to the Web server and the know-how accumulated in the database 5 (S15). Disclosure results and considerations regarding oil repellency and considerations, proposals, information on evaluation items, information on compatibility of organic materials, etc. are disclosed on I10, on the Web server The unit manufacturer can browse the result through the terminal device S12 by simply waiting for a certain period of time after filling in the form. On the other hand, the calculation result is sent to the compressor manufacturer's department in the compressor internal network. The compressor manufacturer conducts further detailed examination as necessary, creates a unit alternative usage plan and evaluation item detailed information, and sends it to the unit manufacturer together with the evaluation sample compressor in step S11. If the result of the evaluation by the unit manufacturer is confirmed and it is judged OK according to the know-how possessed by the compressor manufacturer, the compressor manufacturer decides the compressor specifications and the installed unit specifications, and informs the unit manufacturer that the S21 judgment is OK. Disclose. The unit manufacturer receives the judgment from the compressor manufacturer and completes the unit development.
[0066]
On the compressor side, after the compressor specifications and the installed unit specifications are determined in step S21, feedback of the development results is examined in step S22, necessary know-how is accumulated in step S16, and this is converted into data in step S17. To be stored in the database 5. In this database, a lot of experimental data and collected information data are stored in a form so that they can be compared with the evaluation results of the evaluation items.
[0067]
The technical information system according to the present invention is not only a system that supports technical sales to the unit manufacturer when viewed from the compressor manufacturer, but also the compressor manufacturer confirms the unit specifications, selects the appropriate compressor specifications, and is necessary. Since there is a procedure for determining the evaluation items, confirming the evaluation results by the sample compressor, and determining the final compressor specifications and the unit specifications to be installed, the know-how possessed by the compressor manufacturer is systematized for the unit manufacturer Therefore, it is possible to complete the evaluation in an effective and short period of time for a technical problem that has been difficult to solve by only the evaluation performed based on the accumulated know-how of unit manufacturers.
[0068]
The unit specifications to be confirmed include information on the refrigerant used, power supply, refrigeration capacity, temperature used, amount of refrigerant enclosed, and pipe length, so the compressor manufacturer can accurately grasp the state of the compressor installed in the unit. Then, an evaluation sample with appropriate displacement and power supply can be selected. In addition, since the compressor manufacturer finally decides the displacement, power supply, leg support point pitch, and suction / discharge pipe diameter, the unit manufacturer can make the unit specifications in a short period of time based on the basic dimensions of the part that directly contacts the compressor. Can be determined.
[0069]
In addition, the specified refrigerant is HFC or natural refrigerant, and the compressor specification to be selected is a compatible compressor that uses a refrigerating machine oil that is compatible with the refrigerant used, or a refrigerating machine oil that is not compatible. It is characterized by selecting one of the compressors compatible with incompatible oil.At the time of selection, the unit specifications necessary for calculating the oil return when using incompatible oil are confirmed. It is characterized by calculating oil-repellency and disclosing the results to unit manufacturers, so it becomes possible for unit manufacturers to understand the oil-repellency of incompatible oils, which had previously been difficult to study on the desktop, Refrigerator oil with optimal characteristics for unit manufacturers can be selected from among them.
[0070]
In addition, the unit specifications necessary for calculating the oil-repellent property are characterized by including information on the pipe diameter, the number of heat exchanger paths, and the heat exchanger pipe diameter, so in various places in the refrigerant circuit, Regardless of whether the refrigerant state is gas or liquid, the compressor manufacturer can calculate the forward fluidity of the refrigeration oil. It also includes information on the presence and structure of receivers or accumulators that store surplus refrigerant, so compressor manufacturers can know the possibility of refrigeration oil stagnation, and highly reliable compressor specifications. Can be presented.
[0071]
Moreover, the oil return performance calculation results disclosed to the unit manufacturers mentioned above are specified by the lower limit value of the refrigerant flow rate (oil return limit flow rate) that can ensure the forward fluidity of the refrigerating machine oil, the refrigerant flow rate, and a comparative consideration of both. It is characterized by the fact that it contains information on the location where the oil-repellency is a problem, operating conditions, and refrigerant status (gas or liquid). The operating conditions that require attention to oiliness can be ascertained, and design changes necessary to ensure oil-repellency can be made, enabling development in a short time.
[0072]
In addition, when deciding evaluation items, it is characterized by setting different evaluation items according to compatibility with compatible oil or non-compatible oil, and setting evaluation samples with different specifications. Evaluation based on know-how possessed by machine manufacturers can be systematically implemented, and development can be promoted effectively after understanding technical fields where conventional unit manufacturers have not accumulated know-how, such as HFC refrigerant compatibility.
[0073]
In addition, as an evaluation item, as an evaluation item for incompatible oil, it is characterized by including a discharge gas superheat check in each operation of liquid back, stagnation start-up, and oil level check in the compressor during operation, and The compatibility-compatible evaluation items include residual production contamination in the unit, level confirmation of residual moisture content, and sludge resistance evaluation regarding clogging of the throttle part. Can overcome these disadvantages and develop highly reliable units.
[0074]
In addition, as a compressor evaluation sample for incompatible oils, it is characterized by including a compressor with a peep window, so it is sure to visually check whether the supply to the refrigeration oil bearings is hindered by liquid refrigerant. Can verify and develop highly reliable units.
[0075]
In addition, the product department discloses the product specifications to the parts department that supplies parts that are connected to the product that is developed or manufactured by the fluid, and the parts department operates the part specifications and products that correspond to the product specifications. When selecting an evaluation item that needs to be evaluated for product operation, the product department has a step for determining a part to be used in the product based on the evaluation result of the product operation evaluation item. Since it is incorporated as an item, product development or manufacturing can be made highly reliable in a short time.
[0076]
In addition, the parts department confirms the specifications of the product produced by the product department, and selects the specifications of the parts to be supplied to this product. The parts department supplies the selected parts to the product department as a sample and operates the product. In the experiment, there are a step of presenting an evaluation item of the product operation to be evaluated at the time of evaluation, and a step of determining the use of the component based on the evaluation result of the evaluation item using the supplied component. Products that can be evaluated in a short time can be manufactured.
[0077]
In addition, since the parts department includes a step of judging the evaluation results of the evaluation items of the product operation and determining the specifications of the parts, it is possible to further accumulate know-how of the parts that meet the purpose.
[0078]
In addition, information on the process oil used during product manufacturing as a product specification to the parts division that supplies compressors that are components of products that use natural refrigerants or products that use refrigeration cycles that circulate HFC developed or manufactured by the product division and the refrigeration cycle A step of disclosing a specification including information on the piping of the product, a step in which the parts department evaluates a compressor specification corresponding to the product specification and an evaluation item that requires an evaluation of the product operation when the product is operated, The component department selects the compressor to be used for the product based on the evaluation result and presents it to the product department, so that it is possible to reliably present the part that matches the product.
[0079]
In addition, since the parts department includes a step of presenting alternative specifications for some of the product specifications to the product department, a better product can be obtained.
[0080]
In addition, since the alternative specifications presented by the parts department are some types of materials used in the product or some dimensions of the product, the adverse effect of the fluid flowing through the product can be further reduced.
[0081]
In addition, the parts are compressors, and the products are natural refrigerants or products that use a refrigeration cycle that circulates HFC, and the product specifications use refrigerant type, power source type, product refrigeration capacity, temperature used , And the amount of refrigerant to be enclosed in the refrigeration cycle, and the specifications of the selected parts include the displacement amount and the type of power source, which is the refrigerant discharge amount, so even if you use a refrigeration cycle that requires a lot of data accumulation A combination of highly reliable products with good performance can be obtained in a short period of time.
[0082]
In addition, as a product specification for a compressor that uses a refrigerating machine oil compatible with the refrigerant used, the type of process oil used in the manufacturing process of the refrigeration cycle and its use location, or the type of process oil and its use location and Since the evaluation of the blockage of the refrigeration cycle is based on the amount of residual process oil in the refrigeration cycle or the amount of residual water in the refrigeration cycle, it is possible to make comprehensive judgments regarding the product manufacturing contents, including products and parts. Thus, a more reliable product / part combination is obtained.
[0083]
In addition, for sample compressors that use refrigeration oil that is compatible with the refrigerant used, the remaining contamination in the refrigeration cycle is equivalent to the amount of foreign matter remaining in the refrigeration cycle or the amount of process oil remaining. Since the condition of the parts is evaluated, a reliable product can be obtained reliably.
[0084]
In addition, for compressors that use refrigeration oil that is incompatible with the refrigerant used, the oil return performance of the incompatible oil that returns to the compressor is calculated based on the product specifications such as piping and parts that can store the refrigerant. And since the oil return performance calculation result including the refrigerant flow velocity in the pipe is presented from the parts department to the product department, the specifications of the product and parts can be determined quickly.
[0085]
For sample compressors that use refrigeration oil that is incompatible with the refrigerant used, discharge the lubricant remaining in the refrigeration cycle without returning to the compressor, depending on the superheat or the oil level in the compressor or refrigerant reservoir Since the department operates and evaluates, quality can be secured reliably.
[0086]
In addition, the alternative specifications presented by the parts department are at least one of the types of organic materials, types of process oils, and dimensions of piping used in refrigeration cycle components in which refrigerant circulates, so that product quality can be improved. .
[0087]
In addition, the parts department calculates the oil return performance from the refrigeration cycle to the compressor for the lubricant that uses non-compatible oil, and the compressor that uses compatible oil. On the other hand, the remaining amount of foreign matter or process oil remaining in the refrigeration cycle is judged from residual information contamination information, and either one type of compressor is selected and a part specification is presented, so a high-quality product can be short-term Can be manufactured between.
[0088]
In addition, the product specifications include the strength of the refrigerant circuit components with respect to the type of organic material used in the refrigeration cycle and the components that can contact the circulating refrigerant or the refrigerant pressure, so that the quality of the product can be further enhanced. .
[0089]
In addition, since it is characterized by being colored and supplied to the refrigeration oil of the sample compressor with a sight window, the liquid refrigerant and the refrigeration oil can be clearly distinguished visually, and observation and evaluation through the sight window can be performed more accurately. .
[0090]
The unit specifications confirmed above include information on the organic materials (process oil and organic material parts) that are planned to be used by the unit manufacturer, and the compressor manufacturer considers the applicability of organic materials. However, since it is characterized by presenting an alternative material in the case of no, it is not necessary for the unit manufacturer to perform an evaluation on the compatibility of the organic material that requires a professional evaluation, and the development period can be shortened.
[0091]
The unit specification to be confirmed is characterized by including pressure resistance strength of the refrigerant circuit parts or compressor connection piping specification information, and when the strength is insufficient, the compressor manufacturer presents an alternative specification. Therefore, the unit manufacturer can reduce the evaluation load for increasing the operating pressure and measures against pipe vibration, and the development period can be shortened.
[0092]
In addition, each process of confirming unit specifications, disclosure of selected compressor specifications, and disclosure of evaluation items is performed on a communication network, and the result of oil repellency calculation is disclosed on a communication network. In addition, since it is characterized by disclosing the applicability of organic materials and alternative material information on the communication network, even in the development of technical fields where past unit manufacturers have not accumulated much technical know-how, such as HFC correspondence The unit manufacturer can systematically acquire the technical know-how possessed by the compressor manufacturer in a short period of time, and can grasp the generated load related to the evaluation in advance. In particular, the selection of compatible and non-compatible oils for HFC refrigerants can be carried out based on a wealth of information that is usually difficult to obtain by the unit manufacturer alone, so the optimum judgment that matches the actual situation of the unit manufacturer can be made. It becomes possible. Therefore, according to this system, the unit manufacturer can efficiently determine the optimal compressor specifications, so it is possible to develop a highly complete product at a minimum cost in a short period of time, which is advantageous for the business management of the unit manufacturer. You can proceed.
[0093]
Although the present invention has described the manufacturing method and the compressor technical information apparatus based on the information exchange between the unit manufacturer and the compressor manufacturer as described above, it is a matter of course that the present invention is not limited thereto. Parts used for the refrigeration cycle, such as compressors, are not only in physical quantities such as heat exchangers and physical quantities such as heat exchangers, but also in deterioration due to chemical changes through the flow of circulating refrigerant. Interact with each other. For example, a fan and an air conditioner using a fan often have mutual influences such as the capacity of the air conditioner and dirt due to the fluid flow of air. In addition, the design of the bell mouth and the ventilation guide provided in the air conditioner makes it impossible to fully demonstrate the fan's ability, and the ability of the fan cannot be exhibited. On the other hand, a fan was prototyped and many experiments were conducted using various ventilation structures, and it was decided by cut-and-try. However, it was simple by using the manufacturing method for exchanging information on the product and parts of the present invention, and Secure manufacturing is possible.
[0094]
That is, in the product manufacturing method of the present invention, the air volume, wind pressure, pressure loss and rotation as a total of the air conditioner are supplied to the component section that supplies the propeller fan which is a component of the product developed or manufactured by the product section that manufactures the air conditioner. Disclosure of specifications such as the number and type of motor power supply, and the fan manufacturing department is not limited to fans that correspond to the product specifications, but also specifications and products such as the dimensions of parts manufactured by the product department such as bellmouth and wind direction and rectification guides Select the evaluation items such as vibration that need to evaluate the product operation when driving the product, and the product department will evaluate the evaluation items of the product operation by simulation such as 3D Chunji calculation, and use this result for the product Parts can be determined.
[0095]
Or, the fan manufacturing department selects the specifications of the parts to be supplied to the air conditioner such as a large plant, supplies the sample with the fan and motor connected directly, and evaluates the product operation such as noise and vibration when the product is operated The department that manufactures the air conditioner can determine the use of the parts based on the result of operation evaluation of the presented evaluation item using the supplied fan. As a result, large-scale fans that are not handled by unit manufacturers and fans with completely different characteristics are developed based on the know-how of fan manufacturers, so that structural parts are intensively developed according to the purpose and application of the product. This eliminates the need to apply power to areas where fans are not good at developing, so that products with good performance and quality can be obtained in a short period of time. This makes it possible to further take advantage of the ability to manufacture products in a short period of time when manufacturing at a remote location away from the development department, such as when manufacturing units such as air conditioners overseas.
[0096]
【The invention's effect】
The product manufacturing method according to claim 1 of the present invention manufactures or sells parts such as a compressor used in a product to a product department having information on manufacturing or selling products such as refrigeration / refrigeration equipment and air conditioning equipment. When a parts department having information to manufacture or sell parts corresponding to products manufactured or sold by the product department, the parts department confirms product specifications including designation of a refrigerant not containing chlorine to the product department; The parts department selects a part specification corresponding to the confirmed product specification and supplies a sample part having this part specification to the product department. The parts department is based on the confirmed product specification and the selected part specification. The step of selecting the evaluation items necessary for the evaluation of the product, and the evaluation result obtained according to the evaluation items presented using the sample parts supplied by the product department The parts department has the steps of confirming and determining the part specifications and product specifications, so that the parts department should have specifications that are friendly to the global environment, can be reliably evaluated, and have high reliability in a short period of time. I can do it.
[0097]
According to a second aspect of the present invention, there is provided a product manufacturing method in which a product division having information on manufacturing or selling a product such as a refrigeration / freezing device or an air conditioning device has a part which is a part of a product using a refrigerant not containing chlorine. A step of disclosing the product specifications to the parts department to be supplied; a part department selecting and presenting the specifications of the parts corresponding to the specifications of the products and the evaluation items that require evaluation of the products when operating the products; The department includes a step of determining a part to be used for the product based on the evaluation result of the evaluation item presented by the parts department, and the specification of the product can be changed by an alternative specification reversely presented by the parts department. A product that incorporates the know-how of the parts department can be manufactured in a short period of time.
[0098]
The product manufacturing method according to claim 3 of the present invention is used for a product in a parts department in which a product department having information on manufacturing or selling products such as refrigeration / refrigeration equipment and air conditioning equipment supplies parts that are part of the product. Disclosing product specifications including information on piping to be performed and information on process oil used during product manufacture, and the parts department selects parts specifications corresponding to the product specifications and presents them to the product department; Includes a step of evaluating the product based on the specification of the product and presenting the evaluation result to the product department, and the specification of the part presented by the parts department is selected based on the evaluation result, and thus matches the purpose. The selected parts can be selected.
[0099]
In the product manufacturing method according to claim 4 of the present invention, the parts division gives the product division an alternative specification for the specification of the product that is the type of some materials used in the product or the size of a part of the product. And a step of reverse presentation, which not only can surely present parts that match the product, but can further improve the quality.
[0100]
In the product manufacturing method according to claim 5 of the present invention, the part is a compressor, and the product is a product using a refrigeration cycle in which natural refrigerant or HFC is circulated, and is used for at least oil return calculation that is the structure of the product. Based on product specifications that include either information or information on the organic materials used in the product, the parts department calculates oil repellency when the refrigeration oil uses incompatible oil as a refrigerant, or is compatible. Since the compatibility of organic materials when using oil is judged and the above-mentioned part specifications of either a compatible compatible compressor or a non-compatible compatible compressor are selected, the product variety And a better product can be obtained.
[0101]
The information for oil return calculation of the product manufacturing method according to claim 6 of the present invention includes information on the pipe diameter of the refrigeration cycle, heat exchanger information, presence or absence of receivers and accumulators capable of storing refrigerant, and the structure thereof, Or the information on organic materials includes the type and location of organic materials used in refrigeration cycle equipment, the type and location of process oil used in the manufacturing process, the residual amount of process oil in the product refrigeration cycle, the product Because it contains any one or more of the remaining moisture in the refrigeration cycle, the adverse effects of the fluid flowing through the product can be greatly reduced, and a good product can be obtained.
[0102]
In the product manufacturing method according to claim 7 of the present invention, the evaluation items for evaluating the compressor compatible with the compatible oil include the sludge resistance evaluation regarding the blockage of the throttle part of the refrigeration cycle. Is supplied to the product department, it is filled with contamination equivalent to process oil and moisture remaining in the refrigeration cycle, so it is a reliable and high-performance product for refrigeration cycles that require a lot of data accumulation. A combination of parts can be obtained in a short time.
[0103]
In the product manufacturing method according to claim 8 of the present invention, the evaluation items for evaluating the compressor compatible with incompatible oil are the discharge superheat confirmation or the observation of the oil level inside the compressor in the operation state where the suction superheat is not applied, and the stop. The component specifications include at least one of confirming the transition of the discharge superheat at the time of starting the compressor from the state where the liquid refrigerant is stored in the compressor after being allowed to cool and observing the transition of the oil level inside the compressor and the state of the refrigerant. When the parts department supplies the product department to the product department, it is a compressor that allows the inside to be observed. Therefore, it is possible to make a comprehensive judgment on the product manufacturing contents, including the product and parts, and further reliability. A combination of high-quality products and parts can be obtained in a short period of time.
[0104]
In the product manufacturing method according to claim 9 of the present invention, the part is a compressor, and the product is a product using a natural refrigerant or a refrigeration cycle in which HFC is circulated. The product specifications include the type, product refrigeration capacity, temperature used, amount of refrigerant sealed in the refrigeration cycle, and alternative product specifications that can be presented by the parts department are the types of organic materials used in the refrigeration cycle, used during product manufacture Because it includes at least one of the type of process oil and the pipe diameter, reliable and reliable product specifications can be obtained.
[0105]
In the product manufacturing method according to claim 10 of the present invention, the part is a compressor, and the product is a product using a natural refrigerant or a refrigeration cycle in which HFC is circulated. The product specifications including the type, product refrigeration capacity, operating temperature, amount of refrigerant sealed in the refrigeration cycle, and the product department confirms with the product department include information on the pressure strength against the refrigerant pressure of the refrigerant circuit parts, Including the vibration resistance strength of the compressor connection piping, reliable and reliable product specifications can be obtained.
[0106]
In the product manufacturing method according to claim 11 of the present invention, the part is a compressor, the product is a product using a refrigeration cycle in which natural refrigerant or HFC is circulated, and the product specification is general information of the product. Parts specifications presented by the parts department, including the type of refrigerant, type of power source, product refrigeration capacity, operating temperature, amount of refrigerant sealed in the refrigeration cycle, pipe length, and information for calculating oil return or organic material Includes the displacement of the compressor, the corresponding power supply, the compressor leg support point pitch, and the discharge / intake relationship, so that quality can be reliably ensured for the entire refrigeration cycle.
[0107]
In the compressor technical information device according to claim 12 of the present invention, a unit department having unit information for manufacturing or selling units such as refrigeration / refrigeration equipment and air conditioning equipment manufactures or sells a compressor corresponding to the unit. A first transmission means for transmitting information including the type of refrigerant of the unit, the type of power source, the refrigeration capacity of the product, the temperature to be used, and the amount of refrigerant enclosed in the refrigeration cycle to the compressor section having the compressor information; The machine department communicates to the unit department the compressor specifications including the refrigerant discharge amount and the type of power supply, and information on the evaluation items for unit operation when using refrigeration oil that is compatible or incompatible with the refrigerant. A second transmission means that operates and a computing means that is provided in the compressor department or unit department to calculate evaluations of evaluation items, or that is provided in the compressor department or unit department. And an evaluation item processing means having at least one of the databases in which data for judging evaluation of the evaluation items is stored, so that it is easy to exchange technical information to determine specifications that can ensure good performance and quality And it can be done reliably.
[0108]
The compressor technical information device according to claim 13 of the present invention manufactures a compressor corresponding to a unit to be manufactured or sold to a unit sector in which the compressor section manufactures or sells refrigeration / refrigeration equipment, air conditioning equipment, etc. Or, when selling, the compressor department confirms the unit specifications including the type of refrigerant of the unit, the type of power supply, the refrigeration capacity of the product, the temperature used, and the amount of refrigerant sealed in the refrigeration cycle, and responds to this specification Select compressor specifications including displacement and power supply type, and select whether the refrigerating machine oil used in this compressor is compatible or incompatible with the refrigerant, and transmit the evaluation items to be evaluated during unit operation A communication means for transmitting information between the compressor department and the unit department, and an evaluation item processing means for evaluating the evaluation items provided in the compressor department or the unit department. Since determined by evaluation of the evaluation items compressor specifications and equipped with is the unit specifications are used in the unit, good combination of products and parts are reliably obtained in a short time.
[0109]
In the compressor technical information device according to claim 14 of the present invention, the specification refrigerant of the unit is a natural refrigerant or HFC, and when the incompatible oil is used as the selected compressor specification, the oil return performance is calculated. Confirm the unit specifications necessary for this, and the compressor department will calculate the oil return performance and disclose the result to the unit department, or, if compatible oil is used, residual foreign matter or process oil remaining in the refrigeration cycle The unit specifications necessary for judgment of the quantity are confirmed, and the results selected from the stored database are disclosed to the unit department, so it is possible to freely select parts according to the required performance and usage conditions for the environment and purpose You can get a good product.
[0110]
The unit specifications necessary for calculating the oil return performance of the compressor technical information device according to claim 15 of the present invention are: pipe diameter, heat exchanger information, presence / absence of components for storing refrigerant in the refrigeration cycle, and The information on this structure is included, so that a reliable unit with reliable oil return performance can be obtained.
[0111]
The disclosed oil return calculation result of the compressor technical information device according to claim 16 of the present invention is determined based on the lower limit value of the refrigerant flow rate that can ensure the forward fluidity of the refrigeration oil, the refrigerant flow rate, and a comparison between the two. Since the information on the location and operating conditions in the refrigeration cycle where the oil return performance is a problem is included, it is possible to reliably exhibit satisfactory oil return performance and obtain a highly reliable unit.
[0112]
In the compressor technical information device according to claim 17 of the present invention, as an incompatible oil-compatible evaluation item, liquid supercooling is detected in the compressor that has been discharged and cooled after the discharge superheat is confirmed in the operation state where the discharge superheat is not applied. Foreign matter or process remaining in the refrigeration cycle as an evaluation item for compatible oil, including at least one of discharge gas superheat confirmation at compressor start-up from the stored state and confirmation of oil level in the compressor during operation Including sludge resistance evaluation on the clogging of the squeezed portion based on the residual amount of oil and the residual moisture content of the refrigeration cycle, a product with higher quality can be obtained.
[0113]
The compressor technical information device according to claim 18 of the present invention manufactures a compressor corresponding to a unit to be manufactured or sold to a unit section in which the compressor section manufactures or sells refrigeration / refrigeration equipment, air conditioning equipment, and the like. Or, when selling, the compressor department confirms the unit specifications including the type of refrigerant of the unit, the type of power supply, the refrigeration capacity of the product, the temperature used, and the amount of refrigerant sealed in the refrigeration cycle, and responds to this specification Select the compressor specifications including the displacement and the type of power supply, and convey the evaluation items to be evaluated during operation of the unit according to the selection of whether the refrigeration oil used in this compressor is compatible or incompatible with the refrigerant. A communication means for transmitting information between the compressor department and the unit department, and an evaluation item processing means for evaluating the evaluation items provided in the compressor department or the unit department. For example, since determining the compressor to be used to evaluate the evaluation item by the sample compressor supplied from the compressor department, it performs ensure reliability reliable information exchange and unit in a short period of time.
[0114]
In the compressor technical information device according to claim 19 of the present invention, the incompatible oil compatible sample compressor can be observed inside, so that it is easy to confirm that the oil in the compressor is sufficiently present. .
[0115]
In the compressor technical information device according to claim 20 of the present invention, the refrigeration oil of the sample compressor corresponding to the incompatible oil is colored, so that detection without error can be performed at a glance.
[0116]
In the compressor technical information device according to claim 21 of the present invention, the unit specification includes information on the process oil used in the unit department and the information on the organic material including the type and location of the organic material component, and the compressor specification is organic. In the case of the applicability and non-applicability of materials, alternative specifications are presented so that a reliable unit can be obtained reliably.
[0117]
The compressor technical information device according to claim 22 of the present invention can confirm the unit specifications including the pressure resistance strength of the refrigerant circuit components of the refrigeration cycle or the compressor connection piping specification information, and can present an alternative specification if the strength is insufficient. Therefore, a highly reliable unit can be obtained.
[0118]
In the compressor technical information device according to claim 23 of the present invention, since the unit specification and the compressor specification information are transmitted on the communication network, know-how can be obtained under the same conditions as any other party in the world. Exchange of information is possible, and the product side and the part side can remarkably increase the manufacturing capacity.
[Brief description of the drawings]
FIG. 1 is a flowchart representing a system according to an embodiment of the present invention.
FIG. 2 is a schematic diagram showing a system according to an embodiment of the present invention.
FIG. 3 is a schematic diagram showing a system according to an embodiment of the present invention.
FIG. 4 is an explanatory diagram showing the characteristics of a representative refrigerant and refrigerating machine oil of the present invention.
FIG. 5 is a flowchart of oil return calculation according to the present invention.
FIG. 6 is a model explanatory diagram showing an example of a force received by an incompatible oil droplet in the pipe of the present invention.
FIG. 7 is a schematic diagram showing an external shape of a compressor specification determined according to the present invention.
FIG. 8 is a flowchart showing a conventional compressor manufacturing and sales business.
FIG. 9 is a schematic diagram showing a compressor and a unit refrigerant circuit determined by a conventional compressor manufacturing and sales model.
[Explanation of symbols]
S1 Compressor product information disclosure step
S2 Customer unit specification confirmation step
S3 Information confirmation step for oil return calculation
S4 Non-compatible oil repellency calculation step
S5 Compressor and corresponding refrigeration oil selection step
S6a compatibility oil-compatible evaluation item decision step
S6b Evaluation item decision step for incompatible oil
S7a compatible oil sample determination step
S7b Non-compatible oil compatible sample determination step
S8a Evaluation result confirmation step
S8b Evaluation result confirmation step
S9 Unit specification, compressor specification decision step
S10 Input form display step
S11 Unit information input step
S12 Result display step
S13 Unit development evaluation step
S14 Compressor specification, mounted unit specification decision step
S15 Compressor, lubricant selection step
S16 Steps for accumulating know-how
S17 Data conversion step
S18 Evaluation sample determination, evaluation item determination, unit alternative specification drafting step
S19 Evaluation result confirmation step
S20 judgment step
S21 Compressor specifications, mounted unit specifications decision step
S22 Development result feedback step
S23 Compressed ready-made product information disclosure step
S24 Selection step by customer
S25 Customer evaluation steps
S26 Compressor determination step
S101 Step for confirming unit for oil return calculation
S102 Calculation target part assumption step
S103 Refrigerant state assumption step
S105 Refrigerant density calculation step
S106 Oil return limit flow velocity calculation step
S107 Refrigerating machine oil fluidity confirmation step
S108 Iterative calculation step
S109 Operating condition assumption step
S110 Channel cross-sectional area calculation step
S111 Lubricating oil property determination step
S112 Unit basic information confirmation step
S113 Compressor displacement and rotation speed determination step
S114 Refrigerant circulation amount calculation step
S115 Refrigerant flow rate calculation step
S116 Receiver, accumulator presence, structure confirmation step
S117 Oil repellency consideration step
I1 Basic unit information
I2 Information for oil return calculation
I3 Organic material information
I4 Selected compressor specification information
I5 Incompatible oil repellency information
I6 evaluation item information
I7 Organic material compatibility information
I8 input form information
I9 unit specification information
I10 Compressor specifications, evaluation item information, organic material compatibility disclosure information
I11 Unit alternative specification proposal information, detailed evaluation item information, evaluation sample
I12 evaluation result information
I13 judgment result information
1 Unit manufacturer
2 Compressor manufacturers
3 Terminal equipment
4 Web server
5 Database
6 Compressor
7 Condenser
8 Capillaries
9 Evaporator
10 Accumulator
10a Oil return hole
11 Piping
12 Compressor legs
13 Accumulator
14 Discharge pipe
15 Suction pipe
P Support point pitch
D1 Discharge pipe diameter
D2 Diameter of suction pipe

Claims (23)

For a product department that has information on manufacturing or selling products such as refrigeration / refrigeration equipment and air conditioning equipment, a parts department that has information on manufacturing or selling parts such as compressors used in the product is When manufacturing or selling a part corresponding to the product to be manufactured or sold, the part department confirms a product specification including designation of a refrigerant that does not contain chlorine to the product department; Selecting a part specification corresponding to the product specification and supplying a sample part having the part specification to the product department; and the part department confirms the product specification based on the confirmed product specification and the selected part specification. Selecting the evaluation items necessary for the evaluation of the product, and obtaining according to the evaluation items presented using the sample parts supplied by the product department. Product manufacturing method of the evaluation results, the components segment is characterized by comprising the steps of: determining a component specifications and product specification to confirm. Disclosing the specifications of the product to a parts department that supplies parts that are part of a product that uses a refrigerant that does not contain chlorine by a product department that has information on manufacturing or selling products such as refrigeration / refrigeration equipment and air conditioning equipment. The parts department selects and presents the specifications of the parts corresponding to the specifications of the product and the evaluation items that require the evaluation of the product when operating the product, and the product department is presented by the parts department. Determining a part to be used for the product based on an evaluation result of the evaluation item, and the product specification can be changed by an alternative specification reversely presented from the parts department. . Information on piping used in products and process oil used in product manufacture to parts departments where product departments that have information on manufacturing or selling products such as refrigeration / refrigeration equipment and air conditioning equipment supply parts that are part of the products Disclosing a specification of the product including information on the product, a step of selecting a part specification corresponding to the specification of the product and presenting the specification to the product department, and a step of the component department based on the specification of the product. Evaluating the product and presenting the evaluation result to the product department, wherein the specification of the part presented by the parts department is selected based on the evaluation result. The parts department comprises the step of reversely presenting alternative specifications to the product department with respect to the specifications of the product, which are the types of materials used in the product, or the dimensions of a part of the product. The product manufacturing method according to at least one of claims 1 to 3. The part is a compressor, and the product is a product that uses a refrigeration cycle in which natural refrigerant or HFC is circulated, and at least information used for calculating oil repellency, which is the structure of the product, or information on organic materials used in the product Based on the specifications of the product including any of the above, the parts department calculates the oil return when the refrigeration oil uses an incompatible oil as a refrigerant, or the organic material when a compatible oil is used. The compatibility is determined, and at least one of the compressor specifications corresponding to the compatible oil-compatible compressor or the non-compatible oil compatible compressor is selected. The product manufacturing method according to 1. The information for the oil return calculation includes the refrigeration cycle pipe diameter, heat exchanger information, the presence or absence of receivers and accumulators capable of storing refrigerant, and the structure thereof, or the information on the organic material is stored in the refrigeration cycle equipment. The type and location of the organic material used, the type and location of the process oil used in the manufacturing process, the residual amount of process oil in the refrigeration cycle of the product, and the residual moisture content of the product in the refrigeration cycle The product manufacturing method according to claim 5, further comprising: The evaluation items for evaluating the compressor compatible with the compatible oil include a sludge resistance evaluation related to clogging of the throttle portion of the refrigeration cycle, and when the parts department supplies the product department with the sample compressor having the parts specifications The product manufacturing method according to claim 5 or 6, wherein contamination corresponding to process oil or moisture remaining in the refrigeration cycle is filled. The evaluation items for evaluating the compressor compatible with the incompatible oil are the superheat confirmation of the discharge superheat or the observation of the oil level in the compressor in the operation state where the suction superheat is not applied, and the liquid refrigerant is stored in the compressor after being cooled after being stopped. The component department includes the sample compressor having the component specifications including at least one of confirming the transition of the discharge superheat at the time of starting the compressor from the state and observing the transition of the oil level and the refrigerant in the compressor. The product manufacturing method according to claim 5 or 6, wherein the compressor is an observable compressor when supplying to a department. The part is a compressor, and the product is a product that uses a natural refrigerant or a refrigeration cycle that circulates HFC, and the specifications of the product are the type of refrigerant used, the type of power source, the refrigeration capacity of the product, the temperature used , Including the amount of refrigerant sealed in the refrigeration cycle, and an alternative product specification that can be presented by the parts department is the type of organic material used in the refrigeration cycle, the type of process oil used during the manufacture of the product The product manufacturing method according to claim 1, comprising at least one of pipe diameters. The part is a compressor, and the product is a product that uses a natural refrigerant or a refrigeration cycle that circulates HFC, and the specifications of the product are the type of refrigerant used, the type of power source, the refrigeration capacity of the product, the temperature used , Including the amount of refrigerant sealed in the refrigeration cycle, and the product specifications confirmed by the parts division with the product division include information on the pressure resistance strength against refrigerant pressure of refrigerant circuit parts or vibration resistance of compressor connection piping during operation. The product manufacturing method according to claim 1, further comprising strength. The component is a compressor, and the product is a product that uses a natural refrigerant or a refrigeration cycle that circulates HFC, and the specifications of the product are general information of the product. This includes the refrigeration capacity, operating temperature, amount of refrigerant sealed in the refrigeration cycle, pipe length, and information on oil return calculation or organic material information. The product manufacturing method according to claim 1, further comprising: a power source to perform, a compressor leg support point pitch, and a discharge suction relationship. The unit category having unit information for manufacturing or selling units such as refrigeration / refrigeration equipment, air conditioning equipment, etc., and the compressor category having compressor information for manufacturing or selling the compressor corresponding to the unit, the type of refrigerant in the unit , First transmission means for transmitting information including the type of power source, the refrigeration capacity of the product, the temperature to be used, and the amount of refrigerant sealed in the refrigeration cycle, and the compressor section supplies the refrigerant discharge amount and power source to the unit section Specifications of the compressor including the types of the second, and a second transmission means for transmitting information of evaluation items in unit operation when using a refrigerating machine oil compatible or incompatible with the refrigerant, Calculation means provided in the compressor department or the unit department for calculating the evaluation item, or provided in the compressor department or the unit department Is compressor technical information device characterized by comprising a, and evaluation item processing means having at least one database in which data is stored for determining the evaluation of the evaluation items. When the compressor department manufactures or sells a compressor corresponding to the unit to be manufactured or sold to a unit department that manufactures or sells refrigeration / refrigeration equipment, air-conditioning equipment, etc., the compressor department uses the type of refrigerant in the unit. Check the unit specifications including the type of power supply, the refrigeration capacity of the product, the temperature used, and the amount of refrigerant enclosed in the refrigeration cycle, and select the compressor specification including the displacement and the type of power supply corresponding to this specification. The refrigerating machine oil used in the compressor selects whether the refrigerant is compatible or incompatible with the refrigerant and transmits an evaluation item to be evaluated during the operation of the unit, between the compressor department and the unit department. A communication means for transmitting information; and an evaluation item processing means for evaluating the evaluation item provided in the compressor department or the unit department. Compressor technical information and wherein the compressor specifications and equipped with is the unit specification is used to Tsu preparative be determined by the evaluation of the evaluation items. If the specification refrigerant of the unit is natural refrigerant or HFC, and the selected compressor specification is incompatible oil, the unit specification necessary for calculating the oil return performance is confirmed, and the compressor section Calculate the oil return performance and disclose the result to the unit department, or if compatible oil is used, check the unit specifications necessary to determine the amount of foreign matter or process oil remaining in the refrigeration cycle, 14. The compressor technical information apparatus according to claim 12, wherein a result selected from a stored database is disclosed to the unit department. The unit specifications necessary for calculating the oil return performance include pipe diameter, heat exchanger information, presence / absence of a part for storing the refrigerant in the refrigeration cycle, and information on the structure. The compressor technical information device according to 12 or 13 or 14. The disclosed oil-repellency calculation results are based on the lower limit value of the refrigerant flow rate that can ensure the forward fluidity of the refrigerating machine oil, the refrigerant flow rate, and the comparison of both, and the location and operating conditions in the refrigeration cycle where this oil return performance is a problem The compressor technical information device according to claim 14 or 15, characterized in that the information is included. As an incompatible oil-compatible evaluation item, discharge superheat confirmation in the operation state without discharge superheat, discharge gas superheat confirmation at the time of starting the compressor from the state where liquid refrigerant is stored in the compressor cooled down after stopping , And at least one of checking the oil level in the compressor during operation, and as a compatible oil-compatible evaluation item, it is based on the amount of foreign matter or process oil remaining in the refrigeration cycle and the amount of residual moisture in the refrigeration cycle The compressor technical information device according to at least one of claims 12 to 16, further comprising a sludge resistance evaluation related to throttle blockage. When the compressor department manufactures or sells a compressor corresponding to the unit to be manufactured or sold to a unit department that manufactures or sells refrigeration / refrigeration equipment, air-conditioning equipment, etc., the compressor department uses the type of refrigerant in the unit. Check the unit specifications including the type of power supply, the refrigeration capacity of the product, the temperature used, and the amount of refrigerant enclosed in the refrigeration cycle, and select the compressor specification including the displacement and the type of power supply corresponding to this specification. And transmitting information between the compressor section and the unit section for transmitting evaluation items to be evaluated during operation of the unit according to the selection of whether the refrigeration oil used in the compressor is compatible or incompatible with the refrigerant. Transmission means for performing the evaluation, and evaluation item processing means for evaluating the evaluation item provided in the compressor section or the unit section, and the compression section Compressor technical information and wherein the determining the compressor to be used to evaluate the evaluation item by the sample compressor supplied by department. The compressor technical information device according to claim 18, wherein the incompatible oil compatible sample compressor is capable of observing the inside. 19. The compressor technical information device according to claim 18, wherein the refrigeration oil of the sample compressor for incompatible oil is colored. The unit specifications include information on organic materials including the types of process oils and organic material parts used in the unit department and the locations where they are used, and the compressor specifications are alternative specifications in the case of applicability of the organic materials. 19. The compressor technical information device according to claim 18, wherein the compressor technical information device is presented. 19. The compressor technology according to claim 18, wherein a unit specification including pressure resistance strength of the refrigerant circuit component of the refrigeration cycle or compressor connection piping specification information is confirmed, and an alternative specification can be presented if the strength is insufficient. Information device. 23. The compressor technical information device according to claim 12, wherein information on unit specifications and compressor specifications is transmitted on a communication network.

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