WO2018179999A1 - 気化器 - Google Patents
気化器 Download PDFInfo
- Publication number
- WO2018179999A1 WO2018179999A1 PCT/JP2018/005866 JP2018005866W WO2018179999A1 WO 2018179999 A1 WO2018179999 A1 WO 2018179999A1 JP 2018005866 W JP2018005866 W JP 2018005866W WO 2018179999 A1 WO2018179999 A1 WO 2018179999A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- valve
- conduit
- vaporizer
- flow rate
- heater plate
- Prior art date
Links
- 239000006200 vaporizer Substances 0.000 title claims abstract description 169
- 238000012546 transfer Methods 0.000 claims abstract description 95
- 239000011344 liquid material Substances 0.000 claims description 28
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- AFCARXCZXQIEQB-UHFFFAOYSA-N N-[3-oxo-3-(2,4,6,7-tetrahydrotriazolo[4,5-c]pyridin-5-yl)propyl]-2-[[3-(trifluoromethoxy)phenyl]methylamino]pyrimidine-5-carboxamide Chemical class O=C(CCNC(=O)C=1C=NC(=NC=1)NCC1=CC(=CC=C1)OC(F)(F)F)N1CC2=C(CC1)NN=N2 AFCARXCZXQIEQB-UHFFFAOYSA-N 0.000 description 2
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Images
Classifications
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- C—CHEMISTRY; METALLURGY
- C23—COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; CHEMICAL SURFACE TREATMENT; DIFFUSION TREATMENT OF METALLIC MATERIAL; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL
- C23C—COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; SURFACE TREATMENT OF METALLIC MATERIAL BY DIFFUSION INTO THE SURFACE, BY CHEMICAL CONVERSION OR SUBSTITUTION; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL
- C23C16/00—Chemical coating by decomposition of gaseous compounds, without leaving reaction products of surface material in the coating, i.e. chemical vapour deposition [CVD] processes
- C23C16/44—Chemical coating by decomposition of gaseous compounds, without leaving reaction products of surface material in the coating, i.e. chemical vapour deposition [CVD] processes characterised by the method of coating
- C23C16/448—Chemical coating by decomposition of gaseous compounds, without leaving reaction products of surface material in the coating, i.e. chemical vapour deposition [CVD] processes characterised by the method of coating characterised by the method used for generating reactive gas streams, e.g. by evaporation or sublimation of precursor materials
- C23C16/4481—Chemical coating by decomposition of gaseous compounds, without leaving reaction products of surface material in the coating, i.e. chemical vapour deposition [CVD] processes characterised by the method of coating characterised by the method used for generating reactive gas streams, e.g. by evaporation or sublimation of precursor materials by evaporation using carrier gas in contact with the source material
-
- C—CHEMISTRY; METALLURGY
- C23—COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; CHEMICAL SURFACE TREATMENT; DIFFUSION TREATMENT OF METALLIC MATERIAL; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL
- C23C—COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; SURFACE TREATMENT OF METALLIC MATERIAL BY DIFFUSION INTO THE SURFACE, BY CHEMICAL CONVERSION OR SUBSTITUTION; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL
- C23C16/00—Chemical coating by decomposition of gaseous compounds, without leaving reaction products of surface material in the coating, i.e. chemical vapour deposition [CVD] processes
- C23C16/44—Chemical coating by decomposition of gaseous compounds, without leaving reaction products of surface material in the coating, i.e. chemical vapour deposition [CVD] processes characterised by the method of coating
- C23C16/455—Chemical coating by decomposition of gaseous compounds, without leaving reaction products of surface material in the coating, i.e. chemical vapour deposition [CVD] processes characterised by the method of coating characterised by the method used for introducing gases into reaction chamber or for modifying gas flows in reaction chamber
- C23C16/45561—Gas plumbing upstream of the reaction chamber
-
- C—CHEMISTRY; METALLURGY
- C23—COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; CHEMICAL SURFACE TREATMENT; DIFFUSION TREATMENT OF METALLIC MATERIAL; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL
- C23C—COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; SURFACE TREATMENT OF METALLIC MATERIAL BY DIFFUSION INTO THE SURFACE, BY CHEMICAL CONVERSION OR SUBSTITUTION; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL
- C23C16/00—Chemical coating by decomposition of gaseous compounds, without leaving reaction products of surface material in the coating, i.e. chemical vapour deposition [CVD] processes
- C23C16/44—Chemical coating by decomposition of gaseous compounds, without leaving reaction products of surface material in the coating, i.e. chemical vapour deposition [CVD] processes characterised by the method of coating
- C23C16/448—Chemical coating by decomposition of gaseous compounds, without leaving reaction products of surface material in the coating, i.e. chemical vapour deposition [CVD] processes characterised by the method of coating characterised by the method used for generating reactive gas streams, e.g. by evaporation or sublimation of precursor materials
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L21/00—Processes or apparatus adapted for the manufacture or treatment of semiconductor or solid state devices or of parts thereof
- H01L21/02—Manufacture or treatment of semiconductor devices or of parts thereof
- H01L21/04—Manufacture or treatment of semiconductor devices or of parts thereof the devices having potential barriers, e.g. a PN junction, depletion layer or carrier concentration layer
- H01L21/18—Manufacture or treatment of semiconductor devices or of parts thereof the devices having potential barriers, e.g. a PN junction, depletion layer or carrier concentration layer the devices having semiconductor bodies comprising elements of Group IV of the Periodic Table or AIIIBV compounds with or without impurities, e.g. doping materials
- H01L21/30—Treatment of semiconductor bodies using processes or apparatus not provided for in groups H01L21/20 - H01L21/26
- H01L21/31—Treatment of semiconductor bodies using processes or apparatus not provided for in groups H01L21/20 - H01L21/26 to form insulating layers thereon, e.g. for masking or by using photolithographic techniques; After treatment of these layers; Selection of materials for these layers
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L21/00—Processes or apparatus adapted for the manufacture or treatment of semiconductor or solid state devices or of parts thereof
- H01L21/67—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere
- H01L21/67005—Apparatus not specifically provided for elsewhere
- H01L21/67011—Apparatus for manufacture or treatment
- H01L21/67017—Apparatus for fluid treatment
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L21/00—Processes or apparatus adapted for the manufacture or treatment of semiconductor or solid state devices or of parts thereof
- H01L21/67—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere
- H01L21/67005—Apparatus not specifically provided for elsewhere
- H01L21/67011—Apparatus for manufacture or treatment
- H01L21/67098—Apparatus for thermal treatment
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L21/00—Processes or apparatus adapted for the manufacture or treatment of semiconductor or solid state devices or of parts thereof
- H01L21/67—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere
- H01L21/67005—Apparatus not specifically provided for elsewhere
- H01L21/67242—Apparatus for monitoring, sorting or marking
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L21/00—Processes or apparatus adapted for the manufacture or treatment of semiconductor or solid state devices or of parts thereof
- H01L21/67—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere
- H01L21/67005—Apparatus not specifically provided for elsewhere
- H01L21/67242—Apparatus for monitoring, sorting or marking
- H01L21/67253—Process monitoring, e.g. flow or thickness monitoring
Definitions
- the present invention relates to a vaporizer for supplying gas to a semiconductor manufacturing apparatus.
- the vaporizer heats a material in a liquid phase at room temperature (hereinafter sometimes referred to as “liquid material”) to generate a gas, and supplies the generated gas to a semiconductor manufacturing apparatus. It is a device used for the purpose.
- the vaporizer includes a tank that heats a liquid material to generate gas, a valve that starts and stops the supply of gas generated in the tank, and a flow rate measurement unit that measures the flow rate of gas (for example, see Patent Document 1.)
- a vaporizer capable of heating a liquid material to a temperature exceeding 150 ° C. has been developed for the purpose of efficiently vaporizing a new liquid material used in a semiconductor manufacturing process (for example, non-patent literature). 1).
- FIG. 11 is a right side view schematically showing an example of the structure of the vaporizer 1a according to the prior art.
- FIG. 12 is a perspective view showing an example of the configuration of the vaporizer 1a.
- the vaporizer 1a includes a tank 2, a cabinet 3 for storing the tank 2, a conduit 4 for supplying gas generated in the tank 2 to the outside, and a valve 8 provided in the conduit 4.
- flow rate measuring means 5 for measuring the flow rate of the gas flowing through the conduit 4.
- the liquid material stored in the tank 2 is heated and vaporized by the tank heater 2a.
- the generated gas is supplied to the semiconductor manufacturing apparatus by the conduit 4 through the valve 8 and the flow rate measuring means 5.
- the gas may condense inside the conduit 4 and return to the liquid. Specifically, when the temperature of the conduit 4 is lower than the dew point of the gas generated from the liquid material, the gas may condense inside the conduit 4 and return to the liquid. In order to prevent this, the conduit 4 is heated and kept warm by the heater plate 7.
- the heater plate 7 is fixed to the mounting surface 3c of the cabinet 3, and the flow rate measuring means 5 and the valve 8 are supported by the heater plate 7 via the flow rate measuring means fixing base 5b and the valve fixing base 8b, respectively.
- the flow rate measuring means 5 and / or the valve 8 may have to be removed from the vaporizer 1a for the purpose of inspection or repair of the vaporizer 1a.
- the attachment surface 3c of the cabinet 3 is being fixed to the wall surface.
- another vaporizer storing different types of liquid materials is often fixed adjacent to the side surface of the cabinet 3. Therefore, in such a case, the removable surface 3b, which is a removable surface of the cabinet 3, is removed to expose the flow rate measuring means 5 and the valve 8, and the flow rate measuring means 5 and the valve 8 are heated by using a tool such as a screwdriver. A fixing tool such as a screw fixed to the plate 7 is removed.
- a plurality of vaporizers that store different types of liquid materials are often fixed to a wall surface adjacent to each other in the left-right direction. For this reason, when the individual vaporizer is viewed from the front, there is a demand for reducing the width in the left-right direction and reducing the overall width. There is also a demand to reduce the number of vaporizers to be installed by providing a plurality of gas supply lines with a common tank inside one vaporizer.
- the flow rate measuring means 5 and the valve 8 are provided on the side of the mounting surface 3c opposite to the detachable surface 3b, which is the removable surface of the cabinet 3. Is fixed to the heater plate 7. Therefore, as described above, for example, even if it is attempted to remove the flow rate measuring means 5 and / or the valve 8 from the heater plate 7 for the purpose of inspection or repair, the flow rate is adjusted by operating a tool such as a screwdriver from the side of the detachment surface 3b. It is not easy to remove the measuring means 5 and the valve 8. When piping other than the conduit 4 for supplying the gas generated from the liquid material is additionally provided inside the cabinet 3, such an operation becomes more difficult.
- the flow rate measuring means fixing base 5b and the valve fixing base 8b are respectively joined to the conduit 4 by joints.
- these tools are used using a tool such as a spanner. It is necessary to release the joint.
- the conduit 4 is also located on the side of the mounting surface 3c opposite to the attaching / detaching surface 3b, it is possible to release the joint joint by operating a tool such as a spanner in a narrow space of the cabinet 3. It is not easy.
- the present invention has been made in view of the above-mentioned problems, and the flow rate installed in the vaporizer even when the width of the vaporizer is narrowed or a plurality of gas supply lines are provided inside the vaporizer.
- An object of the present invention is to provide a carburetor that can easily perform an operation of removing or reattaching the measuring means and the valve for the purpose of inspection or repair.
- a carburetor comprising a tank, a cabinet, a conduit, a flow rate measuring means and a heater plate, and the cabinet has a detachable surface which is a removable surface.
- the first support member is directly or indirectly fixed to a part other than the detachable surface of the cabinet, the flow rate measuring means is supported by the first support member, and the flow rate measuring means and the detachable surface are The gist is that the heater plate is supported by the first support member.
- the function of supporting the flow rate measuring means combined with the heater plate and the function of heating the conduit in the carburetor according to the prior art are separated into the first support member and the heater plate, respectively. .
- the heater plate can be removed while the state where the flow rate measuring means is supported by the first support member fixed to the cabinet, and the flow rate measuring means can be exposed.
- the fixtures such as a screw which has fixed the flow volume measuring means to the 1st support member, can be easily removed using tools, such as a driver, from the desorption side of a cabinet, the vaporizer concerning a prior art
- the flow rate measuring means can be easily detached from the vaporizer.
- the gist of the present invention is that, in another embodiment, it has one or more heat transfer members for transferring heat from the heater plate to the conduit.
- heat from the heater plate can be preferentially and efficiently transmitted to the portion of the conduit that needs to be heated among the members constituting the vaporizer, so that power consumption by the heater plate can be reduced. it can.
- pipe 4 can be raised.
- the flow rate measuring means is removed from the first support member for inspection or repaired or replaced without securing the space necessary for the operation of the tool inside the cabinet. It is possible to easily perform the operation of attaching the to the first support member again. For this reason, the width
- FIG. 1 is a right side view schematically showing an example of the configuration of a vaporizer according to the present invention.
- the vaporizer 1 includes a tank 2 that heats a liquid material to generate gas, a cabinet 3 that houses the tank 2, and a conduit 4 that supplies gas to the outside of the cabinet 3.
- the flow rate measuring means 5 for measuring the flow rate of the gas flowing through the conduit 4 and the heater plate 7 for heating the conduit 4 are provided.
- the cabinet 3 has a detachable surface 3b that is a detachable surface.
- Tank 2 is a container that can be sealed.
- the liquid material is supplied to the tank 2 through a liquid material supply pipe (not shown) and stored.
- the liquid material stored in the tank 2 is heated and vaporized by the tank heater 2a to generate gas.
- the generated gas stays in a space between the liquid surface of the liquid material inside the tank 2 and the ceiling of the tank 2 and flows out through the conduit 4 to the outside.
- a purge gas can be supplied to the conduit 4 using a pipe (not shown).
- a liquid level sensor for measuring the position of the liquid level of the liquid material and a temperature sensor for measuring the temperature of the liquid material can be provided inside the tank 2 .
- the cabinet 3 is a case for storing the tank 2 and other components constituting the vaporizer 1.
- the cabinet 3 fixes the position of the components and protects precision equipment such as flow rate measuring means from the surrounding environment.
- the cabinet 3 can be comprised with a coated steel plate etc., for example.
- the vaporizer 1 is usually used with the mounting surface 3c of the cabinet 3 fixed to a wall or the like.
- the detachable surface 3b of the cabinet 3 is configured to be removable. By removing the detachable surface 3b, the components housed in the cabinet 3 can be removed or reattached for the purpose of inspection or repair.
- the cabinet 3 may have a heat insulating material 3a.
- the heat insulating material 3a serves to keep the temperature inside the cabinet 3 constant so that heat generated by the tank heater 2a and a heater plate 7 described later does not escape to the outside of the cabinet 3.
- the heat insulating material 3a is preferably provided on the inner surface (inner wall surface) of the cabinet 3 without a gap.
- a heat-resistant material such as a known silicone rubber or ethylene propylene diene rubber can be used as the heat insulating material 3a.
- the conduit 4 is a pipe that supplies the gas generated in the tank 2 to the outside of the cabinet 3.
- the conduit 4 may be a single pipe, or may be an assembly of a plurality of pipes that connect the components.
- pipe 4 can be suitably selected according to the kind of liquid material to be used.
- a stainless steel pipe can be used.
- the conduit 4 can be provided with a branch pipe for introducing a purge gas for discharging the internal gas.
- the flow rate measuring means 5 is a means for measuring the flow rate of the gas flowing through the conduit 4.
- the flow rate measuring means 5 can be constituted by a mass flow meter provided in the middle of the conduit 4.
- a mass flow meter for example, a known thermal mass flow meter or pressure mass flow meter can be used.
- the heater plate 7 is a heating element that heats the conduit 4.
- the gas generated in the tank 2 has the property of condensing and returning to a liquid when the temperature decreases.
- the conduit 4 is heated by the heater plate 7.
- the heater plate 7 can be configured, for example, by attaching a rubber heater having a thickness of 1.5 millimeters to a flat aluminum material having a thickness of 2 millimeters that can easily conduct heat.
- a wire-like or foil-like resistance heating element is sandwiched between heat-resistant rubbers.
- the maximum amount of heat generated per square centimeter of a rubber heater is about 1 watt
- the heat resistant temperature is about 200 ° C.
- the vaporizer 1 has a first support member 6 fixed directly or indirectly to a location other than the detachable surface 3b of the cabinet 3.
- the position where the first support member 6 is fixed to the cabinet 3 can be appropriately selected according to the shape and / or structure of the cabinet 3.
- the facing surface (the mounting surface 3c in this example) that is the surface facing the detachable surface 3b of the cabinet 3, is located on the left and right when viewed from the front.
- the 1st support member 6 can be fixed to surfaces other than the attachment / detachment surface 3b, such as a side surface or the upper surface located above.
- the first support member 6 for example, known means such as screwing and / or welding can be used. It is preferable to fix the 1st supporting member 6 not to the surface of the heat insulating material 3a but to the member (for example, painted steel plate etc.) which comprises the cabinet 3.
- FIG. The first support member 6 may be fixed directly to the inside of the cabinet 3, or indirectly to the cabinet 3 (via the tank 2) by fixing to the outside of the tank 2 accommodated in the cabinet 3. It may be fixed to.
- FIG. 2 is a front view schematically showing an example of the configuration of the vaporizer 1 according to the present invention.
- FIG. 3 is a plan view schematically showing an example of the configuration of the vaporizer 1 according to the present invention.
- the first support member 6 can be composed of a pair of left and right plate-like members whose ends are bent at a right angle. One end portion of the first support member 6 that is bent is screwed to the mounting surface 3 c of the cabinet 3. Unlike the heater plate 7, the first support member 6 does not need to have a function of transferring heat. For this reason, it can comprise with the stainless steel plate etc. which were excellent in mechanical strength and corrosion resistance.
- the flow rate measuring means 5 is supported by the first support member 6.
- the first support member 6 is provided so as to sandwich the flow rate measuring unit 5 from the left and right sides, and supports the flow rate measuring unit 5 by bending the lower end portion toward the flow rate measuring unit 5. And can be configured not to fall.
- the flow rate measuring means 5 can be attached and detached by sliding back and forth between the pair of left and right first support members 6. After the flow rate measuring means 5 is attached to the first support member 6, it can be fixed to the first support member 6 by a removable means such as screwing.
- the heater plate 7 is supported by the first support member 6 between the flow rate measuring means 5 and the attachment / detachment surface 3b of the cabinet 3.
- the first support member 6 can bend the end portion close to the detachable surface 3 b in the left-right direction.
- the heater plate 7 can be fixed to the bent portion of the first support member 6 by a removable means such as a screw.
- the surface of the heater plate 7 is brought into close contact with the surface of the portion of the flow rate measuring means 5 where the gas flow path is provided so that heat can be transmitted efficiently. It is preferable.
- a heat insulating material 3 a provided inside the detachable surface 3 b of the cabinet 3 is located. The heat insulating material 3a prevents the heat generated in the heater plate 7 from being released to the outside.
- the detachable surface 3b of the cabinet 3 is first removed to expose the heater plate 7.
- the heater plate 7 is removed from the first support member 6 to expose the flow rate measuring means 5.
- the fixing of the flow rate measuring means 5 and the first support member 6 and the joining of the flow rate measuring means 5 and the conduit 4 are released using a tool such as a screwdriver and a spanner, and the flow rate measuring means 5 is slid and removed.
- the operation of attaching the flow rate measuring means 5 to the carburetor 1 and removing it from the carburetor 1 can be performed in the open space after the detachable surface 3b of the cabinet 3 is removed. Further, since the fixed portion between the first support member 6 and the heater plate 7 and the fixed portion between the first support member 6 and the flow rate measuring means 5 are both exposed to the detachable surface 3b, a tool such as a driver is used. Is easy to reach. Therefore, compared with the vaporizer 1a which concerns on a prior art, the operation
- the junction of the flow rate measuring means 5 and the conduit 4 is attached to and detached from the cabinet 3 of the flow rate measuring means 5 as illustrated in FIG. It is preferable that it is located on the side close to the surface 3b. In other words, at least the joint between the flow rate measuring means 5 and the conduit 4 is disposed at a position closer to the detachable surface 3b than the facing surface (the mounting surface 3c in this example) which is the surface facing the detachable surface 3b of the cabinet 3.
- Modification 1-1 operations such as attachment and detachment of the flow rate measuring means 5 can be easily performed using a tool such as a screwdriver and a spanner in an open space in front of the attachment / detachment surface 3b of the cabinet 3. it can. Therefore, it is not necessary to provide a space necessary for operating the tool inside the cabinet 3. For this reason, the width
- the width of the vaporizer 1 that can be realized by the present invention varies depending on the capacity of the tank and other conditions, but is typically about 60 to 70 millimeters, for example.
- the carburetor 1 has a flow rate measuring means fixing base 5b between the flow rate measuring means 5 and the heater plate 7.
- the flow rate measuring means 5 is supported by the first support member 6 via the flow rate measuring means fixed base 5b.
- the flow rate measuring unit fixing base 5 b can be configured by a plate-like member having substantially the same shape as the surface of the flow rate measuring unit 5 facing the detaching surface 3 b of the cabinet 3.
- the flow rate measuring means fixing base 5 b is preferably made of a flat aluminum material that easily conducts heat.
- the thickness of the flow rate measuring means fixing base 5b can be set to 5 millimeters, for example.
- the flow rate measuring means 5 is not directly supported by the first support member 6, but indirectly supported by the first support member 6 via the flow rate measuring means fixing base 5b. Yes.
- the fixing means for the flow rate measuring means 5 and the first support member 6 can be provided on the flow rate measuring means fixing base 5b, a new fixing means for fixing to the first support member 6 is provided. 5 need not be provided. Therefore, the general-purpose flow rate measuring means 5 used for applications other than the vaporizer can be used for the vaporizer 1 as it is.
- the heater plate 7 is supported by the first support member 6 between the flow rate measuring means 5 and the detachable surface 3b of the cabinet 3.
- the first support member 6 can bend the end portion close to the detachable surface 3b in the left-right direction.
- the heater plate 7 can be directly fixed to the bent portion of the first support member 6 by a removable means such as screwing.
- the flow rate measuring means fixing base 5b is sandwiched between the heater plate 7 and the bent portion of the first support member 6, and these are fastened together with a common screw or bolt or the like to fix the heater plate 7 to the first. It may be fixed to the support member 6. In any case, by supporting the heater plate 7 by the first support member 6 in this way, it is possible to ensure sufficient mechanical strength to support the heater plate 7 having a large area and weight.
- the surfaces are preferably in close contact with each other. In this case, the heat generated by the heater plate 7 is concentrated and efficiently transmitted to the flow rate measuring unit 5 through the flow rate measuring unit fixed base 5 b having the same shape as the flow rate measuring unit 5. It is possible to more reliably prevent gas condensation in the remaining flow path.
- the carburetor 1 includes a flow measurement means joint block between the flow measurement means 5 and the flow measurement means fixed base 5b. 5a and the conduit 4 is joined to the flow measuring means joint block 5a.
- the flow rate measuring means joint block 5 a is provided at a joint (not shown) with the conduit 4 serving as a gas introduction path and a discharge path, and at the bottom of the flow rate measurement means 5. It can be constituted by a block-like member having a joint portion (not shown) that is hermetically joined to the gas inlet and outlet.
- the material constituting the flow measuring means joint block 5a can be appropriately selected according to the type of liquid material to be used, as in the case of the conduit 4.
- stainless steel can be used for the flow rate measuring means joint block 5a.
- the joint with the conduit 4 serving as the gas introduction path and the lead-out path is not provided in the flow rate measuring means 5 but in the flow rate measuring means joint block 5a attached to the flow rate measuring means 5. It is done. With this configuration, it is not necessary to provide the flow measuring means 5 with a joint with the conduit 4 having a diameter suitable for the vaporizer. Therefore, the general-purpose flow rate measuring means 5 used for applications other than the vaporizer can be used for the vaporizer 1 as it is.
- the vaporizer 1 has a valve 8 for starting and stopping the supply of gas between the tank 2 and the flow rate measuring means 5. Gas supply starts when the valve 8 is opened, and gas supply stops when the valve 8 is closed. With this configuration, an appropriate amount of gas can be supplied to the semiconductor manufacturing apparatus at an appropriate timing. Further, by disposing the flow rate measuring means 5 on the downstream side of the valve 8 in this way, it is possible to prevent gas from staying inside the flow rate measuring means 5. Further, depending on the configuration of the conduit 4, the inside of the flow rate measuring means 5 can be purged (discharged) with nitrogen gas or the like in a state where the valve 8 is closed. From the viewpoint of increasing the gas flow rate, it is preferable to use a diaphragm valve as the valve 8 that has a large sectional area when opened and is operated by air pressure.
- the valve 8 is a smaller member than the flow rate measuring means 5 and can be supported by being joined to the conduit 4. Therefore, it is not always necessary to provide a support means such as the first support member 6 for supporting the flow rate measuring means 5 for the valve 8.
- a support means such as the first support member 6 for supporting the flow rate measuring means 5 for the valve 8.
- the carburetor 1 according to the present invention has a valve fixing base 8b between the valve 8 and the heater plate 7, and the valve 8 is a valve. It is fixed to the heater plate 7 via a fixed base 8b.
- the valve fixing base 8 b can be configured by a plate-like member having substantially the same shape as the surface of the valve 8 that faces the detaching surface 3 b of the cabinet 3.
- the valve fixing base 8b is preferably made of a flat aluminum material.
- the thickness of the valve fixing base 8b can be set to 5 millimeters, for example.
- the valve 8 is not directly fixed to the heater plate 7, but is indirectly fixed to the heater plate 7 via the valve fixing base 8b.
- the valve 8 and the heater plate 7 can be fixed to the valve fixing base 8b, so that it is not necessary to provide the valve 8 with a new fixing means for fixing to the heater plate 7. Therefore, the general-purpose valve 8 that is also used for applications other than the vaporizer can be used for the vaporizer 1 as it is.
- the surface of the heater plate 7, the surface of the valve fixing base 8b, the surface of the valve fixing base 8b, and the surface of the valve 8 are in close contact with each other.
- the heat generated in the heater plate 7 is intensively and efficiently transmitted to the valve 8 via the valve fixing base 8b having the same shape as the valve 8, so that condensation of gas in the valve 8 can be prevented more reliably. Can do.
- the carburetor 1 has a valve joint block 8a between the valve 8 and the valve fixing base 8b, and a conduit 4 Is joined to the valve joint block 8a.
- the valve joint block 8 a includes a joint (not shown) with the conduit 4 serving as a gas introduction path and a lead-out path, and a gas introduction port provided at the bottom of the valve 8. And a block-shaped member having a joining portion (not shown) that is airtightly joined to the outlet.
- the material which comprises the valve coupling block 8a can be suitably selected according to the kind of liquid material to be used like the conduit 4.
- the valve joint block 8a is preferably made of a material such as stainless steel having high corrosion resistance so that the valve joint block 8a is not corroded by the gas flowing inside.
- the joint with the conduit 4 serving as the gas introduction path and the lead-out path is not provided in the valve 8, but is provided in the valve joint block 8a attached to the valve 8.
- the valve 8 it is not necessary to provide the valve 8 with a joint with the conduit 4 having a diameter suitable for the vaporizer. Therefore, the general-purpose valve 8 that is also used for applications other than the vaporizer can be used for the vaporizer 1 as it is.
- the detachable surface 3b of the cabinet 3 is first removed to expose the heater plate 7. Next, the fixing of the heater plate 7 and the first support member 6 and the fixing of the heater plate 7 and the valve 8 are respectively released, the heater plate 7 is removed, and the valve 8 is exposed.
- the carburetor 1 having the configurations of the modification 2-1 and the modification 2-2
- the heater plate 7 and the first support are provided.
- the fixing with the member 6 and the fixing between the heater plate 7 and the valve fixing base 8b are released, and the heater plate 7 is removed to expose the valve fixing base 8b.
- the fixing of the valve fixing base 8b and the valve 8 is released, the valve fixing base 8b is removed, and the valve 8 is exposed.
- valve 8 is released with a tool such as a spanner, and the valve 8 is removed.
- a tool such as a spanner
- the valve 8 is joined to the conduit 4 via the valve joint block 8a
- the joint that joins the valve joint block 8a and the conduit 4 is released with a spanner, and the valve joint block 8a and the valve 8 are removed.
- the valve 8 that has been inspected or repaired or a new valve 8 for replacement is attached to the carburetor 1, it can be attached according to the reverse procedure of the above procedure.
- the joint between the valve 8 and the conduit 4 is preferably located on the side close to the detachable surface 3b of the cabinet 3, as illustrated in FIG.
- at least the joint between the valve 8 and the conduit 4 is disposed at a position closer to the detachable surface 3b than the facing surface (the mounting surface 3c in this example) which is the surface facing the detachable surface 3b of the cabinet 3.
- a tool such as a spanner can easily reach. Therefore, compared with the carburetor 1a which concerns on the prior art in which a junction part is located on the opposite side of the attachment / detachment surface 3b, operation of attachment and removal of the valve 8 can be performed more easily.
- FIG. 1 to 3 are diagrams schematically showing an example of the configuration of the vaporizer 1 according to the present invention corresponding to the modification 2-2. Accordingly, in FIG. 1 to FIG. 3, the flow rate measuring means joint block 5a, the flow rate measuring means fixing base 5b, the valve joint block 8a, and the valve fixing base 8b are depicted as components of the carburetor 1. However, these components are not essential components for the vaporizer according to the present invention.
- the carburetor 1 has a valve 8, one conduit 4, one flow measuring means 5, and 1
- a plurality of sets of gas supply lines each having one first support member 6 are provided inside the cabinet 3.
- One valve 8 may be interposed in each of the plurality of sets of gas supply lines, and one common valve 8 may be installed upstream of the manifold branching to the plurality of sets of gas supply lines. May be.
- a single vaporizer 1 is used to supply a gas generated in a single tank to a plurality of semiconductor manufacturing apparatuses using a plurality of gas supply lines. Or can be supplied to a plurality of gas introduction locations of the semiconductor manufacturing apparatus. Therefore, the number of vaporizers required for the semiconductor manufacturing apparatus can be reduced as compared with the conventional case.
- the vaporizer 1 can easily attach and remove the flow rate measuring means 5 using a tool such as a screwdriver and a spanner in an open space before the detachable surface 3b of the cabinet 3. Can be done. Therefore, it is not necessary to provide a space necessary for operating the tool inside the cabinet 3. Therefore, a plurality of sets of gas supply lines can be provided inside one carburetor 1 without impairing the operability of attaching and removing the flow rate measuring means 5.
- the valve 8 needs to have a capacity corresponding to the flow rate required for the gas.
- the flow rate of the gas supplied from the tank 2 to the plurality of sets of gas supply lines via the valve 8 is large. Therefore, it is necessary to provide the valve 8 having a larger capacity.
- the capacity of the valve 8 is increased in this way, the size and mass of the valve 8 are also increased, so that it may be difficult to support the valve 8 by joining with the conduit 4. It is also difficult to support the valve 8 by close contact with the heater plate 7.
- valve 8 it is conceivable to fix the valve 8 to a panel or the like constituting the cabinet 3.
- the valve 8 is fixed to the cabinet 3 directly or indirectly via the valve fixing base 8b, the heat transmitted from the heater plate 7 to the valve 8 is transmitted to the outside of the cabinet 3, and the outside of the cabinet 3 Will be released.
- valve 8 is supported by a support member fixed to any part of the cabinet 3 like the flow rate measuring means 5 described above.
- a support member can also be a heat dissipation path that transfers heat transmitted from the heater plate 7 to the valve 8 to the cabinet 3 and releases it to the outside of the cabinet 3.
- the amount of heat transferred from the valve 8 to the cabinet 3 via the support member that supports the valve 8 rather than the amount of heat transferred from the heater plate 7 to the valve 8. Is preferably small.
- the vaporizer 1 according to the present invention is directly or indirectly fixed to a location other than the detachable surface 3b of the cabinet 3.
- a second support member 8c Furthermore, the valve 8 is supported directly or indirectly by the second support member 8c.
- the second support member 8c is configured such that the amount of heat transferred from the valve 8 to the cabinet 3 via the second support member 8c is smaller than the amount of heat transferred from the heater plate 7 to the valve 8 via the valve fixing base 8b. Is configured.
- the valve 8 is reliably supported by the valve fixing base 8b. Can do. Further, as described above, since the amount of heat transferred from the valve 8 to the cabinet 3 via the second support member 8c is smaller than the amount of heat transferred from the heater plate 7 to the valve 8 via the valve fixing base 8b, the heater plate The release of heat transmitted from 7 to the valve 8 to the outside of the cabinet 3 can be suppressed. As a result, gas condensation in the valve 8 can be effectively prevented.
- the configuration of the second support member 8c is not particularly limited as long as the requirements described in Modification 2-4 are satisfied. For example, by configuring the second support member 8c with a material having a smaller thermal conductivity, or by reducing the cross-sectional area of the second support member 8c as a path (heat channel) through which heat is transmitted, The above requirements can be satisfied.
- the second support member 8c provided in the carburetor 1 according to the present invention is a heat conduction material constituting the valve fixing base 8b. And / or the minimum value of the cross-sectional area of the heat flow path via the second support member 8c is the minimum value of the cross-sectional area of the heat flow path via the valve fixing base 8b. It is configured to be smaller.
- the second support member 8c is made of a stainless steel plate or the like having a thermal conductivity smaller than that of the aluminum-based material. can do.
- the valve fixing base 8b is constituted by a plate-like member having substantially the same shape as the surface of the valve 8 that faces the detachable surface 3b of the cabinet 3 as illustrated in the modified example 2-1, As long as it is possible to support the second support member 8c, a member having a cross-sectional area smaller than the area of the main surface of the plate-like member (the cross-sectional area of the heat flow path) can be configured.
- the heat transmitted from the heater plate 7 to the valve 8 is more reliably suppressed from being released to the outside of the cabinet 3, and the condensation of the gas in the valve 8 is more reliably prevented while being large.
- the valve 8 having a capacity can be reliably supported.
- the cabinet 3 is connected to the cabinet 3 via the support member that supports the valve 8 rather than the amount of heat transferred from the heater plate 7 to the valve 8 by the configuration exemplified in the above-described modification 2-4 and modification 2-5. Even in the case where the amount of heat transferred to the heater is reduced, a part of the heat transmitted from the heater plate 7 to the valve 8 may be released to the outside of the cabinet 3 through the second support member 8c.
- the heat transmitted from the heater plate 7 to the valve fixing base 8b A part is transmitted to the second support member 8 c without reaching the end face of the valve fixing base 8 b on the valve 8 side and discharged to the outside of the cabinet 3. Therefore, in order to secure a larger amount of heat transferred from the heater plate 7 to the valve 8, it is preferable to fix the second support member 8c as close to the valve 8 as possible.
- the second support member 8c included in the carburetor 1 according to the present invention is an end face on the valve 8 side of the valve fixing base 8b or The valve 8 is configured to be supported at a location closer to the valve 8 than the end face.
- FIG. 4 is a right side view showing an example of the configuration in the vicinity of the valve 8 provided in the carburetor 1 according to Modification 2-6.
- one end of the second support member 8c is detachably fixed to the detachable surface 3b of the cabinet 3, and the other end of the second support member 8c is detachably fixed to the surface of the valve fixing base 8b on the valve 8 side.
- the second support member 8c is a mount plate made of a stainless steel plate having a thermal conductivity lower than that of the aluminum-based material constituting the valve fixing base 8b, and a cross-sectional area of the heat flow path in the second support member 8c.
- the amount of heat transferred from the valve 8 to the cabinet 3 via the support member that supports the valve 8 is more than the amount of heat transferred from the heater plate 7 to the valve 8. It can be made smaller. As a result, the rate at which the heat transmitted from the heater plate 7 to the valve 8 is released to the outside of the cabinet 3 is more reliably reduced, and the condensation of the gas in the valve 8 is more reliably prevented, and the large capacity. It is possible to reliably support the valve 8 having
- the support member that supports the valve 8 is fixed to the detachable surface 3b of the cabinet 3, it may be difficult to easily remove the detachable surface 3b. Therefore, it is more preferable that the support member that supports the valve 8 is fixed to a portion other than the detachable surface 3 b of the cabinet 3.
- the vaporizer 1 has one or more heat transfer members that transfer heat from the heater plate 7 to the conduit 4.
- the conduit 4 longer than the shortest distance has to be provided for the purpose of avoiding interference between the components, for example.
- the temperature of the gas passing through the conduit 4 decreases and the risk of condensation increases.
- the heat transfer member can be made of an aluminum-based material that easily transfers heat.
- the shape of the heat transfer member can be, for example, a shape obtained by bending a plate material having a thickness of 2 millimeters into an L (el) shape.
- Heat of the heater plate 7 can be transferred to the conduit 4 by bringing one side of the L-shape into contact with the surface of the heater plate 7 and the other side in contact with the conduit 4.
- the contact area between the heat transfer member and the conduit 4 is increased by, for example, winding an aluminum foil around both the heat transfer member and the conduit 4. It is preferable.
- the vaporizer 1 According to the vaporizer 1 according to the third embodiment, heat can be preferentially and efficiently transmitted to the portion of the conduit 4 that needs to be heated among the members constituting the vaporizer 1. Therefore, since the degree of freedom of the place where the conduit 4 is disposed is increased, it becomes easier to narrow the width of the vaporizer 1 or install a plurality of gas supply lines inside the vaporizer 1. Moreover, compared with the vaporizer which concerns on the prior art which heats the whole inside of the cabinet 3 to uniform temperature, the power consumption by the heater plate 7 can be reduced.
- the vaporizer 1 has one or more heat transfer members that transfer heat from the heater plate 7 to the conduit 4. Thereby, for example, even when a long conduit 4 is provided for the purpose of avoiding interference between components, the heat of the heater plate 7 is effectively transmitted to the conduit 4 to prevent the gas temperature from decreasing. be able to.
- the conduit 4 has a complicated structure such as a purge gas piping structure (for example, a manifold) for purging (discharging) the liquid material gas in a narrow cabinet. May have.
- a purge gas piping structure for example, a manifold
- the conduit 4 may have a more complicated structure.
- the heat transfer member included in the vaporizer 1 according to the present invention is such that the end of the heat transfer member on the side far from the heater plate 7 is a conduit. 4 and the member that is in direct contact with the conduit 4 are configured to transmit heat from the heater plate 7 to the conduit 4 by radiation from the end portion. .
- FIGS. 5A and 5B are (a) a right side view and (b) a perspective view illustrating an example of the configuration of the heat transfer member 9 incorporated in the vaporizer 1 according to the modified example 3-1.
- one outer surface 9a (an end portion closer to the heater plate 7) of the heat transfer member 9 having a substantially C-shaped atypical cross section formed of an aluminum-based material is in close contact with the heater plate 7. Yes.
- the other outer surface 9b (the end portion on the side far from the heater plate 7) facing the outer surface is a flow rate measuring means 5 (specifically, one of the two mass flow rate control devices provided in the vaporizer 1).
- the outer surface 9b is not in direct contact with either the conduit 4 or any member (such as the joint block 4a) that is in direct contact with the conduit 4.
- the “predetermined distance” refers to the conduit 4 by heating the joint block 4a by transmitting the heat transmitted from the heater plate 7 to the heat transfer member 9 by radiation from the outer surface 9b to the opposing outer surface of the joint block 4a. Is set as appropriate so that it can be heated sufficiently. That is, the heat transfer member 9 is configured to transmit heat from the heater plate 7 to the conduit 4 by radiation from an end portion (outer surface 9 b) far from the heater plate 7.
- the conduit 4 has a complicated structure that is complicated with each other, such as when a plurality of gas supply lines are provided inside the cabinet 3,
- the heat of the heater plate 7 can be effectively transmitted to the conduit 4 to prevent the gas temperature from decreasing. Therefore, since the degree of freedom of the place where the conduit 4 is disposed is increased, it becomes easier to narrow the width of the vaporizer 1 or install a plurality of gas supply lines inside the vaporizer 1.
- the heat transfer member 9 since the heat transfer member 9 is not fixed in a state where it is in contact with the conduit 4, it is difficult to remove the flow rate measuring means 5 and / or the valve 8 from the vaporizer 1a. The fear can be reduced. Further, since it is not necessary to manufacture a heat transfer member having a shape that accurately corresponds to the complicated structure of the conduit 4 or to accurately align and assemble it, for example, an increase in the manufacturing cost of the vaporizer 1 and / or Alternatively, problems such as a decrease in manufacturing efficiency can be reduced.
- the heat transfer member 9 in this example is a member having a substantially C-shaped atypical cross section formed of an aluminum-based material.
- the surface 9 c is in contact with the side surface of the joint block 8 d of the valve that is in close contact with the heater plate 7. That is, the heat transfer member 9 in this example also functions as a heat transfer member that transfers heat from the heater plate 7 to the valve.
- the carburetor 1 according to the present invention may further include a heat transfer member that transfers heat from the heater plate 7 to the valve, and the function of transferring heat from the heater plate 7 to the conduit 4 and the heater. The function of transferring heat from the plate 7 to the valve may be achieved by a single heat transfer member.
- ⁇ Modification 3-2> In the modified example 3-1, as described above, the end of the heat transfer member 9 on the side far from the heater plate 7 is in direct contact with both the conduit 4 and the member that is in direct contact with the conduit 4.
- the heat transfer member 9 is configured to transmit heat from the heater plate 7 to the conduit 4 by radiation from the end portion. However, from the viewpoint of achieving efficient heat transfer from the heater plate 7 to the conduit 4, it is preferable that the heat transfer member 9 is in contact with both the heater plate 7 and the conduit 4.
- the heat transfer member 9 included in the vaporizer 1 according to the present invention is in contact with both the conduit 4 and the heater plate 7. It is configured.
- the heat transfer member 9 is configured to come into contact with both the conduit 4 and the heater plate 7 as described above. Therefore, heat can be more reliably transmitted to the portion of the conduit 4 that needs to be heated among the members constituting the vaporizer 1.
- the heat transfer member 9 is configured to contact both the conduit 4 and the heater plate 7 as described above.
- problems such as an increase in cost and / or a decrease in production efficiency.
- the present inventor configures the heat transfer member 9 so that the length of the heat transfer member 9 can be flexibly changed in accordance with the position of the portion of the conduit 4 that needs to be heated. Thus, it was found that the above problem can be solved.
- the heat transfer member 9 included in the carburetor 1 according to the present invention is a movable head that is urged toward the conduit 4. 9d. Furthermore, the movable head 9d is in direct contact with the conduit 4 or a member that is in direct contact with the conduit 4.
- the movable range of the movable head 9d (distance that can move in the direction approaching the conduit 4) and the application range of the urging force in the direction toward the conduit 4 (the urging force in the direction toward the conduit 4 can be applied)
- the range of the position is appropriately set according to the position of the conduit 4 to be brought into contact with the movable head 9d. Specifically, in a state where the vaporizers 1 according to the modified example 3-3 are assembled, the movable head 9d is brought into contact with and / or pressed against the conduit 4 by the biasing force in the direction approaching the conduit 4. A movable range of 9d and an operating range of the urging force are set.
- the carburetor 1 was assembled without manufacturing and accurately aligning and assembling the heat transfer member 9 having a shape that accurately corresponds to the complex structure of the conduit 4.
- the movable head 9d can be reliably brought into contact with the conduit 4. Therefore, for example, efficient heat transfer from the heater plate 7 to the conduit 4 can be achieved while reducing problems such as an increase in the manufacturing cost of the vaporizer 1 and / or a decrease in manufacturing efficiency.
- the heat transfer member 9 includes a main body portion in contact with the heater plate 7 and a movable head 9d, and the movable head 9d is a main body.
- the carburetor 1 that is configured to be slidable while being in contact with the portion and that is biased toward the conduit 4 by an elastic body can be given.
- FIG. 6 is a perspective view showing an example of the configuration of the heat transfer member 9 included in the vaporizer 1 according to Modification 3-3.
- the heat transfer member 9 shown in FIG. 6 includes a movable head 9d having a cylindrical sleeve 9ds and a flange 9df formed at the tip of the sleeve 9ds (that is, the end on the conduit 4 side), and a columnar main body 9e. And comprising. Further, a body 9e is inserted into the sleeve 9ds, and is configured to be slidable while at least partially contacting the inside of the sleeve 9ds and the outside of the body 9e.
- the heat transfer member 9 includes an elastic body 9f made of a coiled spring having a diameter larger than the outer diameter of the sleeve 9ds and smaller than the outer diameter of the flange 9df, and the sleeve 9ds and the main body portion are included in the elastic body 9f. 9e is arranged substantially coaxially.
- one end of the main body 9e is fixed to the heater plate 7 via a heat transfer member fixing base 9g, and an elastic body 9f is compressed between the heat transfer member fixing base 9g and the flange 9df. Yes.
- the movable head 9d is urged toward the conduit 4 by the elastic body 9f.
- a step portion is formed on the inner wall of the sleeve 9ds, and the inner diameter of the sleeve 9ds on the tip side of the step portion is larger than the inner diameter of the sleeve 9ds on the heater plate 7 side than the step portion. ing.
- a washer 9h having an outer diameter smaller than the inner diameter on the distal end side of the sleeve 9ds and larger than the inner diameter on the heater plate 7 side is provided at the distal end of the main body 9e (that is, the end on the conduit 4 side). It is fixed by. This prevents the movable head 9d from falling off the main body 9e due to the urging force of the elastic body 9f.
- five heat transfer members 9 are configured by using one common heat transfer member fixing base 9g.
- one or two or more heat transfer members 9 may be configured in each of the plurality of heat transfer member fixing bases 9g.
- the elastic body 9f is not particularly limited as long as it has durability against the operating conditions (for example, temperature) of the vaporizer 1 and can urge the movable head 9d toward the conduit 4.
- An elastic body for example, a leaf spring, rubber, etc.
- other than the wound string spring may be used as the elastic body 9f.
- the heat transfer member 9 including the cylindrical sleeve 9ds and the movable head 9d having the flange 9df formed at the tip of the sleeve 9ds and the columnar main body 9e is illustrated.
- the specific configuration of 9 is not limited to the example.
- the heat transfer member 9 is constituted by a cylindrical main body, a columnar shaft portion slidably inserted into the main body portion, and a movable portion having a head portion formed at the tip of the shaft portion. May be.
- FIG. 7 is a (a) right side view and (b) perspective view showing an example of a state in which the heat transfer member 9 shown in FIG. 6 is incorporated in the vaporizer 1.
- the movable head 9d is configured to be slidable while being in contact with the main body portion 9e within a predetermined movable range, and is biased toward the conduit 4 by the elastic body 9f. Therefore, as long as the portion of the conduit 4 or the like to be brought into contact with the movable head 9d in the state of being incorporated in the vaporizer 1 is located within the movable range of the movable head 9d, it has a shape that accurately corresponds to the structure of the conduit 4.
- the movable head 9d can be reliably brought into contact with the conduit 4 without manufacturing the heat transfer member 9 or accurately aligning the movable head 9d and the conduit 4.
- the tips of the five movable heads 9d are composed of a plurality of pipes 4b that constitute the conduit 4 and a plurality of joint blocks 4a that connect these pipes 4b by being urged by an elastic body 9f. It is pressed against each part of the manifold 4c.
- the five movable heads 9d are in direct contact with the piping 4b constituting the conduit 4 and the joint block 4a connecting these piping 4b. That is, the movable head 9d is in direct contact with the conduit 4 or a member that is in direct contact with the conduit 4.
- efficient heat transfer from the heater plate 7 to the conduit 4 can be achieved while reducing problems such as an increase in manufacturing cost of the vaporizer 1 and / or a decrease in manufacturing efficiency.
- the heat transfer member fixing base 9g in this example is a member having an atypical U-shaped cross section formed of an aluminum-based material, and is perpendicular to the drawings.
- the lower outer surface 9 c of the valve is in contact with the side surface of the joint block 8 d of the valve that is in close contact with the heater plate 7. That is, the heat transfer member fixing base 9g in this example also functions as a heat transfer member that transfers heat from the heater plate 7 to the valve.
- the carburetor 1 according to the present invention may further include a heat transfer member that transfers heat from the heater plate 7 to the valve, and the function of transferring heat from the heater plate 7 to the conduit 4 and the heater. The function of transferring heat from the plate 7 to the valve may be achieved by a single heat transfer member.
- the flow rate measuring means 5 is a mass flow meter or a mass flow control device.
- a known thermal mass flow meter or pressure mass flow meter can be used as the mass flow meter. Since the mass flow meter can accurately measure the gas flow rate, the amount of gas supplied from the vaporizer 1 can be accurately managed.
- the mass flow controller is provided with a valve and a control circuit for controlling the gas flow rate in addition to the mass flow meter. When using a mass flow controller, it is possible to control the flow rate of the gas supplied from the vaporizer 1 so as to approach a predetermined target flow rate.
- the valve 8 of the vaporizer 1 can be omitted by using a valve provided in the mass flow control device. That is, the valve provided in the mass flow control device can be used as the valve 8 of the vaporizer 1.
- FIG. 8 is a perspective view showing an example of the configuration of the vaporizer 1b.
- the front side of the vaporizer 1b is the F side
- the back side is the B side
- the right side is the R side
- the left side is the L side
- the top side is the U side
- the bottom side may be referred to as the D side.
- a part of the cabinet 3 and the heater plate 7 are omitted for the purpose of making the configuration of the vaporizer 1b easy to understand.
- only the panel constituting the detachable surface 3b and the right side surface (R side surface), which is the removable surface of the cabinet 3, is drawn with a gap from the other components of the vaporizer 1b.
- the vaporizer 1b includes a tank 2 for heating a liquid material to generate gas, a cabinet 3 for storing the tank 2 (not shown in part), a conduit 3 for supplying the gas to the outside of the cabinet 3, A flow rate measuring means 5 for measuring the flow rate of the gas flowing through the conduit 4 and a heater plate 7 (not shown) for heating the conduit 4 are provided.
- the cabinet 3 has a detachable surface 3b that is a detachable surface.
- the vaporizer 1b has the 1st support member 6 directly fixed to the attachment surface 3c (not shown) of the cabinet 3. As shown in FIG.
- the flow rate measuring means 5 is supported by a first support member 6, and a heater plate 7 (not shown) is supported by the first support member 6 between the flow rate measuring means 5 and the detachable surface 3 b.
- a valve 8 for starting and stopping the gas supply is interposed between the tank 2 and the flow rate measuring means 5.
- the opening degree of the valve 8 By adjusting the opening degree of the valve 8, the gas generated in the tank 2 can be supplied to the semiconductor manufacturing apparatus or the like by an appropriate amount at an appropriate timing.
- the valve 8 provided in the vaporizer 1b is the above-described diaphragm valve.
- the operation of attaching the flow rate measuring means 5 and / or the valve 8 to the carburetor 1b and removing it from the carburetor 1b can be performed in the open space after the detachment surface 3b of the cabinet 3 is removed. it can. Further, since the fixed portion between the first support member 6 and the heater plate 7 and the fixed portion between the first support member 6 and the flow rate measuring means 5 are both exposed to the detachable surface 3b, a tool such as a driver is used. Is easy to reach. Therefore, in the carburetor 1b according to the embodiment of the present invention, the operation of attaching and detaching the flow rate measuring means 5 and / or the valve 8 can be performed more easily than the carburetor 1a according to the prior art.
- the vaporizer 1b has a flow rate measuring unit fixing base 5b between the flow rate measuring unit 5 and the heater plate 7, and the flow rate measuring unit 5 is connected to the first support member 6 via the flow rate measuring unit fixing base 5b. Is supported by.
- a valve fixing base 8b is provided between the valve 8 and the heater plate 7, and the valve 8 is fixed to the heater plate 7 via the valve fixing base 8b.
- the vaporizer 1b includes two mass flow controllers MFC1 and MFC2 arranged in parallel on the left side (L side) and the right side (R side) as the flow rate measuring means 5.
- a set of gas supply lines having one conduit 4, one flow rate measuring means 5 (mass flow rate control device MFC1 or MFC2), and one first support member 6 are provided inside the cabinet 3.
- Two sets are provided.
- One common valve 8 is interposed on the upstream side of the manifold 4c that branches to these two sets of gas supply lines. That is, the vaporizer 1b has a configuration corresponding to the above-described modification 2-3.
- the vaporizer according to the first embodiment is a vaporizer 1b having a configuration corresponding to the above-described modification 2-3.
- the valve 8 is directly supported by fixing a part of the valve fixing base 8b to the panel constituting the detachable surface 3b of the cabinet 3.
- the vaporizer according to the first embodiment does not include the heat transfer member 9.
- the vaporizer according to the second embodiment has the same configuration as the vaporizer according to the first embodiment, except that the heat transfer member 9 is the same as the vaporizer 1 according to the modified example 3-1.
- the vaporizer according to the second embodiment includes the radiation-type heat transfer member 9 illustrated in FIG. 5, and transfers heat from the heater plate 7 to the conduit 4 by radiation from the distal end portion of the heat transfer member 9. It is configured as follows.
- the vaporizer according to the third embodiment has the same configuration as the vaporizer according to the first embodiment, except that the heat transfer member 9 similar to the vaporizer 1 according to the modified example 3-3 is provided.
- the vaporizer according to the third embodiment includes a main body portion 9e and a movable head 9d that are in contact with the heater plate 7, and the movable head 9d is a main body portion.
- the movable head portion 9 d is provided with a contact-type heat transfer member 9 that is configured to be slidable while being in contact with each other and is biased toward the conduit 4 by an elastic body.
- carburetor which concerns on Example 3 is comprised so that heat may be transmitted to the conduit
- the carburetor according to the fourth embodiment is similar to the third embodiment except that the valve 8 is indirectly supported via the second support member 8c similar to the carburetor 1 according to the modified example 2-6. It has the same configuration as the vaporizer. Specifically, in the carburetor according to the fourth embodiment, a part of the valve fixing base 8b is fixed to the panel constituting the detaching surface 3b of the cabinet 3 as in the carburetor according to the first to third embodiments. Therefore, the valve 8 is not directly supported. Instead, the valve 8 is supported by a second support member 8c having a configuration as shown in FIG.
- the four types of vaporizers according to the first to fourth embodiments having the above-described configuration are input to the mass flow controller MFC2 arranged on the right side (R side) of the two flow rate measuring means 5 described above.
- the temperature of the side surface (point E) of the side joint block was controlled to 90 ° C. And while maintaining this state, the temperature of six places (temperature measurement site
- A Central portion of side surface of valve joint block 8a
- B Upstream side of manifold 4c (pipe communicating with valve 8)
- C Branch point of manifold 4c
- D Center portion of side surface of joint block 5a on the inlet side of mass flow controller MFC1 (L side)
- E Joint block on the inlet side of mass flow controller MFC2 (R side) Center part of side surface of 5a
- F Outlet piping of mass flow controller MFC2 (R side)
- FIG. 9 is a perspective view showing each temperature measuring portion in the vaporizer 1b according to the embodiment of the present invention.
- FIG. 10 is a block diagram schematically showing each temperature measuring portion in the vaporizer 1b.
- the maximum difference ⁇ Tmax is listed in Table 1 below.
- the heater plate 7 is provided via the flow rate measuring unit fixing base 5b and the valve fixing base 8b. Is transmitted to the flow rate measuring means 5 and the valve 8. Therefore, the possibility that the gas generated from the liquid material in the tank 2 condenses inside the conduit 4 and returns to the liquid can be reduced.
- the temperature variation between the six temperature measuring points is larger than the vaporizer according to the second to fourth embodiments.
- ⁇ Tmax ⁇ 16.9 ° C.
- the vaporizer according to the first embodiment does not include the heat transfer member 9, the heating and heat retention of the conduit 4 is insufficient as compared with the vaporizer according to the second to fourth embodiments. it is conceivable that.
- the valve 8 since the valve 8 is directly fixed to the panel constituting the detachable surface 3b of the cabinet 3, heat transmitted from the heater plate 7 to the valve fixing base 8b is released to the outside of the cabinet 3. Therefore, it is considered that the valve 8 cannot be heated sufficiently.
- the vaporizer according to the second and third embodiments includes the radiation type and the contact type heat transfer members 9, respectively.
- the temperature variation between the six temperature measuring points is small, and the reference point E and each measurement point are measured.
- the temperature difference ⁇ T at the points A to C is further reduced as compared with the vaporizer according to the first to third embodiments.
- the maximum value ⁇ Tmax of the temperature difference ⁇ T between the points was further reduced.
- ⁇ Summary> As is clear from the above description regarding the embodiments of the present invention, according to the present invention, even when the width of the vaporizer is reduced or a plurality of gas supply lines are provided inside the vaporizer, the vaporization is performed. It is possible to provide a vaporizer capable of easily performing operations for removing or reattaching the flow rate measuring means and the valve installed in the vessel for the purpose of inspection or repair. Further, by further providing a heat transfer member that transfers heat from the heater plate 7 to the conduit 4, even when the conduit 4 is long, the heat of the heater plate 7 is transmitted to the conduit 4 to prevent the gas temperature from decreasing. Can do.
- valve 8 is connected to the conduit 4 because the capacity of the valve 8 is large. Even when it is difficult to support, the valve 8 is securely supported, and the heat transmitted from the heater plate 7 to the valve 8 is prevented from being released to the outside of the cabinet 3, thereby condensing the gas in the valve 8. It can be effectively prevented.
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Abstract
Description
図1は、本発明に係る気化器の構成の一例を模式的に示す右側面図である。本発明の第1の実施形態において、気化器1は、液体材料を加熱してガスを発生させるタンク2と、タンク2を収納するキャビネット3と、ガスをキャビネット3の外部に供給する導管4と、導管4を流れるガスの流量を測定する流量測定手段5と、導管4を加熱するヒータプレート7とを備える。キャビネット3は、取り外し可能な面である脱着面3bを有する。タンク2において発生したガスは、導管4を流れる際に流量測定手段5によって流量が測定され、導管4を矢印の方向に流れて、図示しない半導体製造装置に供給される。
本発明の第1の実施形態の1つの好ましい変形例1-1において、流量測定手段5と導管4との接合部は、図3に例示するように、流量測定手段5のうちキャビネット3の脱着面3bに近い側に位置していることが好ましい。換言すれば、少なくとも流量測定手段5と導管4との接合部がキャビネット3の脱着面3bに対向する面である対向面(本例においては取付面3c)よりも脱着面3bに近い位置に配置されていることが好ましい。この場合、流量測定手段5と導管4との接合部の継手がキャビネット3の脱着面3bの側に露出しているので、スパナ等の工具が届きやすい。したがって、接合部が脱着面3bの反対側に位置している従来技術に係る気化器1aに比べて、流量測定手段5の取り付け及び取り外しの操作をより容易に行うことができる。
本発明の第1の実施形態のもう1つの好ましい変形例1-2において、本発明に係る気化器1は、流量測定手段5とヒータプレート7との間に流量測定手段固定ベース5bを有し、流量測定手段5が流量測定手段固定ベース5bを介して第1支持部材6によって支持されている。図1及び図3に例示するように、流量測定手段固定ベース5bは、キャビネット3の脱着面3bに対向する流量測定手段5の表面とほぼ同じ形状を有する板状の部材によって構成することができる。流量測定手段固定ベース5bは、ヒータプレート7と同様に、熱を伝えやすい平板状のアルミニウム系材料によって構成することが好ましい。流量測定手段固定ベース5bの厚さは、例えば5ミリメートルとすることができる。
本発明の第2の実施形態の更にもう1つの好ましい変形例1-3において、本発明に係る気化器1は、流量測定手段5と流量測定手段固定ベース5bとの間に流量測定手段継手ブロック5aを有し、導管4が流量測定手段継手ブロック5aと接合されている。図1及び図3に例示するように、流量測定手段継手ブロック5aは、ガスの導入路及び導出路となる導管4との継手(図示せず)と、流量測定手段5の底部に設けられたガスの導入口及び導出口と気密に接合する接合部分(図示せず)と、を有するブロック状の部材によって構成することができる。流量測定手段継手ブロック5aを構成する材料は、導管4と同じく、使用する液体材料の種類に応じて適宜選択することができる。流量測定手段継手ブロック5aには、例えばステンレス鋼を使用することができる。
本発明の第2の実施形態において、本発明に係る気化器1は、タンク2と流量測定手段5との間に、ガスの供給の開始及び停止を行うバルブ8を有する。バルブ8を開いたときにガスの供給が開始し、バルブ8を閉じたときにガスの供給が停止する。この構成により、半導体製造装置にガスを適切なタイミングにおいて適切な量だけ供給することができる。また、このように流量測定手段5をバルブ8の下流側に配置することにより、流量測定手段5の内部にガスが滞留することを防止することができる。更に、導管4の構成によっては、バルブ8を閉じた状態において例えば窒素ガス等によって流量測定手段5の内部をパージ(排出)することもできる。尚、ガスの流量を大きくする観点からは、開放時の断面積が大きく且つ空気圧によって作動するダイアフラムバルブをバルブ8として使用することが好ましい。
本発明の第2の実施形態の1つの好ましい変形例2-1において、本発明に係る気化器1は、バルブ8とヒータプレート7との間にバルブ固定ベース8bを有し、バルブ8がバルブ固定ベース8bを介してヒータプレート7に固定されている。図1及び図3に例示するように、バルブ固定ベース8bは、バルブ8のうちキャビネット3の脱着面3bに対向する面とほぼ同じ形状を有する板状の部材によって構成することができる。バルブ固定ベース8bは、平板状のアルミニウム系材料によって構成することが好ましい。バルブ固定ベース8bの厚さは、例えば5ミリメートルとすることができる。
本発明の第2の実施形態のもう1つの好ましい変形例2-2において、本発明に係る気化器1は、バルブ8とバルブ固定ベース8bとの間にバルブ継手ブロック8aを有し、導管4がバルブ継手ブロック8aと接合されている。図1及び図3に例示するように、バルブ継手ブロック8aは、ガスの導入路及び導出路となる導管4との継手(図示せず)と、バルブ8の底部に設けられたガスの導入口及び導出口と気密に接合する接合部分(図示せず)と、を有するブロック状の部材によって構成することができる。バルブ継手ブロック8aを構成する材料は、導管4と同じく、使用する液体材料の種類に応じて適宜選択することができる。バルブ継手ブロック8aは、例えば、内部を流れるガスによって腐食されないように、耐腐食性の高いステンレス鋼等の材料によって構成することが好ましい。
本発明の第2の実施形態の更にもう1つの好ましい変形例2-3において、本発明に係る気化器1は、バルブ8を有し、1つの導管4、1つの流量測定手段5、及び1つの第1支持部材6を有する1組のガス供給ラインがキャビネット3の内部に複数組設けられている。尚、これら複数組のガス供給ラインのそれぞれに1つのバルブ8が介装されていてもよく、これら複数組のガス供給ラインへと分岐するマニホルドの上流側に1つの共通のバルブ8が介装されていてもよい。この変形例2-3によれば、1台の気化器1を使用して、単一のタンクにおいて発生したガスを複数のガス供給ラインを用いて複数の半導体製造装置に供給したり、単一の半導体製造装置の複数のガス導入箇所に供給したりすることができる。したがって、半導体製造装置に必要な気化器の台数を、従来よりも削減することができる。
ところで、例えばタンク2において発生したガスに求められる流量において過剰な圧損が生じないようにするためには、ガスに求められる流量に応じた容量をバルブ8が有する必要がある。特に、上記のように一台の気化器1の内部に複数組のガス供給ラインが設けられる場合、タンク2からバルブ8を介して複数組のガス供給ラインへと供給されるガスの流量が多いため、より大きい容量を有するバルブ8を設ける必要がある。このようにバルブ8の容量を増大させるとバルブ8の大きさ及び質量もまた増大するので、導管4との接合によってバルブ8を支持することが困難となる場合がある。また、ヒータプレート7との密着によってバルブ8を支持することもまた困難である。
第2支持部材8cの構成は、変形例2-4において説明した要件を満足する限り特に限定されない。例えば、より小さい熱伝導率を有する材料によって第2支持部材8cを構成したり、熱が伝達される経路(熱流路)としての第2支持部材8cの断面積をより小さくしたりすることによって、上記要件を満足することができる。
ところで、上述した変形例2-4及び変形例2-5に例示したような構成によりヒータプレート7からバルブ8へと運ばれる熱量よりもバルブ8を支持する支持部材を介してバルブ8からキャビネット3へと運ばれる熱量を小さくした場合においても、ヒータプレート7からバルブ8に伝達される熱の一部が第2支持部材8cを介してキャビネット3の外部へと放出されるおそれがある。
本発明の第3の実施形態において、気化器1は、ヒータプレート7から導管4に熱を伝える1又は2以上の伝熱部材を有する。気化器1の内部の構成部品の配置によっては、例えば構成部品同士の干渉を避けること等を目的として、最短距離よりも長い導管4を設けなければならない場合がある。そのような場合、導管4を通るガスの温度が低下して凝結するおそれが高まる。ヒータプレート7から導管4に熱を伝える1又は2以上の伝熱部材を設けることにより、導管4が長い場合においても、ヒータプレート7の熱を導管4に伝達してガスの温度の低下を防止することができる。
上記のように、本発明の第3の実施形態において、気化器1は、ヒータプレート7から導管4に熱を伝える1又は2以上の伝熱部材を有する。これにより、例えば構成部品同士の干渉を避けること等を目的として長い導管4が設けられている場合においても、ヒータプレート7の熱を導管4に有効に伝達してガスの温度の低下を防止することができる。
変形例3-1においては、上記のように伝熱部材9のヒータプレート7から遠い側の端部が導管4及び導管4に直接的に接触している部材の何れにも直接的には接触しておらず且つ上記端部からの輻射によってヒータプレート7から導管4に熱を伝えるように伝熱部材9が構成されている。しかしながら、ヒータプレート7から導管4への効率的な熱伝達を達成する観点からはヒータプレート7及び導管4の両方に伝熱部材9が接触していることが好ましい。
変形例3-2においては、上記のように導管4及びヒータプレート7の双方に接触するように伝熱部材9が構成されている。しかしながら、前述したように、導管4が有する複雑な構造に正確に対応する形状を有する伝熱部材9を製造し且つ正確に位置合わせをして組み付けることは困難であり、例えば気化器1の製造コストの増大及び/又は製造効率の低下等の問題に繋がるおそれもある。
好ましい実施形態において、本発明に係る気化器1は、流量測定手段5が質量流量計又は質量流量制御装置である。上述したように、質量流量計としては、公知の熱式質量流量計又は圧力式質量流量計を使用することができる。質量流量計は、ガスの流量を精密に測定することができるので、気化器1から供給されたガスの量を正確に管理することができる。質量流量制御装置は、ガスの流量を制御するためのバルブ及び制御回路を質量流量計に追加して設けたものである。質量流量制御装置を使用する場合、気化器1から供給されるガスの流量を予め定められた目標流量に近づけるように制御することができる。また、質量流量制御装置に設けられたバルブを使用することにより、気化器1のバルブ8を省略することができる。即ち、質量流量制御装置が備えるバルブを気化器1のバルブ8として使用することができる。
以下、本発明の実施例に係る気化器1bの構成について説明する。図8は、気化器1bの構成の一例を示す斜視図である。図8に関する説明においては、複数の矢印によって図中に示すように、気化器1bの正面側がF側、背面側がB側、右側面側がR側、左側面側がL側、上面側がU側、及び底面側がD側とそれぞれ称される場合がある。また、気化器1bの構成を判り易くすることを目的としてキャビネット3の一部及びヒータプレート7は省略されている。但し、キャビネット3の取り外し可能な面である脱着面3b及び右側面(R側の面)を構成するパネルのみが気化器1bのその他の構成部品と間隔を空けて描かれている。
前述したように、タンク2において液体材料から発生したガスの露点よりも導管4の温度が低いと、導管4の内部においてガスが凝結して液体に戻ってしまうおそれがある。このように導管4の内部においてガスが凝結すると、気化器によって供給されるガスの濃度が変動したりガスの供給が停止したりするおそれがある。このような問題を確実に低減するためには、ヒータプレート7によって加熱される導管4、流量測定手段5、及びバルブ8を含むガスの供給経路における温度斑を小さくすることが重要である。そこで、本実施例に係る気化器1b及びその変形例につき、キャビネット3の内部における複数の箇所の温度を測定した。
実施例2に係る気化器は、前述した変形例3-1に係る気化器1と同様の伝熱部材9を備える点を除き、実施例1に係る気化器と同様の構成を有する。具体的には、実施例2に係る気化器は、図5に示した輻射式の伝熱部材9を備え、伝熱部材9の先端部からの輻射によってヒータプレート7から導管4に熱を伝えるように構成されている。
(B)マニホルド4cの上流側(バルブ8と連通する配管)
(C)マニホルド4cの分岐点
(D)質量流量制御装置MFC1(L側)の入側の継手ブロック5aの側面の中央部
(E)質量流量制御装置MFC2(R側)の入側の継手ブロック5aの側面の中央部
(F)質量流量制御装置MFC2(R側)の出側の配管
実施例1乃至実施例4の何れに係る気化器においても、本発明に係る他の実施形態に係る気化器と同様に、流量測定手段固定ベース5b及びバルブ固定ベース8bを介して、ヒータプレート7によって発生した熱が流量測定手段5及びバルブ8に伝達される。従って、タンク2において液体材料から発生したガスが導管4の内部において凝結して液体に戻ってしまうおそれを低減することができる。
本発明の実施例に関する上記説明からも明らかであるように、本発明によれば、気化器の幅を狭くしたり、気化器の内部に複数のガス供給ラインを設けたりした場合においても、気化器に設置された流量測定手段及びバルブを点検又は修理等を目的として取り外したり、再度取り付けたりする操作を容易に行うことができる気化器を提供することができる。また、ヒータプレート7から導管4に熱を伝える伝熱部材を更に備えることにより、導管4が長い場合においても、ヒータプレート7の熱を導管4に伝達してガスの温度の低下を防止することができる。
1a 気化器(従来技術)
1b 気化器(実施例)
2 タンク
2a タンクヒータ
3 キャビネット
3a 断熱材
3b 脱着面
3c 取付面
4 導管
4a 導管継手ブロック
4b 配管
4c マニホルド
5 流量測定手段
5a 流量測定手段継手ブロック
5b 流量測定手段固定ベース
6 第1支持部材
7 ヒータプレート
8 バルブ
8a バルブ継手ブロック
8b バルブ固定ベース
8c 第2支持部材
8cs スペーサ
8d バルブ継手ブロック
9 伝熱部材
9a 外表面(ヒータプレートに近い側の端部)
9b 外表面(ヒータプレートから遠い側の端部)
9c 外表面(バルブ継手ブロックに接触している外表面)
9d 可動ヘッド
9ds スリーブ
9df フランジ
9e 本体部
9f 弾性体(バネ)
9g 伝熱部材固定ベース
9h ワッシャ
9i ボルト
Claims (17)
- 液体材料を加熱してガスを発生させるタンクと、
前記タンクを収納するキャビネットと、
前記ガスを前記キャビネットの外部に供給する導管と、
前記導管を流れる前記ガスの流量を測定する流量測定手段と、
前記導管を加熱するヒータプレートと、
を備え、
取り外し可能な面である脱着面を前記キャビネットが有する、
気化器であって、
前記キャビネットの前記脱着面以外の箇所に直接的又は間接的に固定された第1支持部材を有し、
前記流量測定手段が前記第1支持部材によって支持されており、
前記流量測定手段と前記脱着面との間で前記ヒータプレートが前記第1支持部材によって支持されている、
気化器。 - 少なくとも前記流量測定手段と前記導管との接合部が前記キャビネットの前記脱着面に対向する面である対向面よりも前記脱着面に近い位置に配置されている、請求項1に記載の気化器。
- 前記流量測定手段と前記ヒータプレートとの間に流量測定手段固定ベースを有し、前記流量測定手段が前記流量測定手段固定ベースを介して前記第1支持部材によって支持されている、請求項1又は請求項2に記載の気化器。
- 前記流量測定手段と前記流量測定手段固定ベースとの間に流量測定手段継手ブロックを有し、前記導管が前記流量測定手段継手ブロックと接合されている、請求項3に記載の気化器。
- 前記タンクと前記流量測定手段との間に、前記ガスの供給の開始及び停止を行うバルブを有する、請求項1乃至4のいずれかに記載の気化器。
- 前記バルブと前記ヒータプレートとの間にバルブ固定ベースを有し、前記バルブが前記バルブ固定ベースを介して前記ヒータプレートに固定されている、請求項5に記載の気化器。
- 前記バルブと前記バルブ固定ベースとの間にバルブ継手ブロックを有し、前記導管が前記バルブ継手ブロックと接合される、請求項6に記載の気化器。
- 一の導管、一の流量測定手段、一の第1支持部材及び一のバルブを有する一組のガス供給ラインが前記キャビネットの内部に複数組設けられている、請求項5乃至7のいずれかに記載の気化器。
- 前記キャビネットの前記脱着面以外の箇所に直接的又は間接的に固定された第2支持部材を有し、
前記バルブは前記第2支持部材によって直接的又は間接的に支持されており、
前記バルブから前記第2支持部材を介して前記キャビネットへと運ばれる熱量が前記ヒータプレートから前記バルブ固定ベースを介して前記バルブへと運ばれる熱量よりも小さいように前記第2支持部材が構成されている、
請求項6乃至8のいずれかに記載の気化器。 - 前記第2支持部材は、
前記バルブ固定ベースを構成する材料の熱伝導率よりも小さい熱伝導率を有する材料によって構成されており、且つ/又は
前記第2支持部材を介する熱流路の断面積の最小値が前記バルブ固定ベースを介する熱流路の断面積の最小値よりも小さいように構成されている、
請求項9に記載の気化器。 - 前記第2支持部材は前記バルブ固定ベースの前記バルブ側の端面又は当該端面よりも前記バルブに近い箇所において前記バルブを支持するように構成されている、
請求項10に記載の気化器。 - 前記ヒータプレートから前記導管に熱を伝える1又は2以上の伝熱部材を有する、請求項1乃至11のいずれかに記載の気化器。
- 前記伝熱部材の前記ヒータプレートから遠い側の端部が前記導管及び前記導管に直接的に接触している部材の何れにも直接的には接触しておらず且つ前記端部からの輻射によって前記ヒータプレートから前記導管に熱を伝えるように前記伝熱部材が構成されている、請求項12に記載の気化器。
- 前記伝熱部材は前記導管及び前記ヒータプレートの双方に接触するように構成されている、請求項12に記載の気化器。
- 前記伝熱部材は前記導管に近付く向きに付勢された可動ヘッドを備えており、
前記可動ヘッドは前記導管又は前記導管に直接的に接触している部材と直接的に接触している、
請求項14に記載の気化器。 - 前記伝熱部材は前記ヒータプレートに接触している本体部と前記可動ヘッドとを備えており、
前記可動ヘッドは、前記本体部に接触しつつ摺動可能に構成され且つ弾性体によって前記導管に近付く向きに付勢されている、
請求項15に記載の気化器。 - 前記流量測定手段が質量流量計又は質量流量制御装置である、請求項1乃至16のいずれかに記載の気化器。
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