WO2016098433A1 - ケーシングのシール構造 - Google Patents
ケーシングのシール構造 Download PDFInfo
- Publication number
- WO2016098433A1 WO2016098433A1 PCT/JP2015/079159 JP2015079159W WO2016098433A1 WO 2016098433 A1 WO2016098433 A1 WO 2016098433A1 JP 2015079159 W JP2015079159 W JP 2015079159W WO 2016098433 A1 WO2016098433 A1 WO 2016098433A1
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- WO
- WIPO (PCT)
- Prior art keywords
- gasket
- case
- cover
- center plate
- casing
- Prior art date
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04D—NON-POSITIVE-DISPLACEMENT PUMPS
- F04D29/00—Details, component parts, or accessories
- F04D29/08—Sealings
- F04D29/086—Sealings especially adapted for liquid pumps
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04B—POSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
- F04B39/00—Component parts, details, or accessories, of pumps or pumping systems specially adapted for elastic fluids, not otherwise provided for in, or of interest apart from, groups F04B25/00 - F04B37/00
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04D—NON-POSITIVE-DISPLACEMENT PUMPS
- F04D29/00—Details, component parts, or accessories
- F04D29/40—Casings; Connections of working fluid
- F04D29/42—Casings; Connections of working fluid for radial or helico-centrifugal pumps
- F04D29/426—Casings; Connections of working fluid for radial or helico-centrifugal pumps especially adapted for liquid pumps
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16J—PISTONS; CYLINDERS; SEALINGS
- F16J15/00—Sealings
- F16J15/02—Sealings between relatively-stationary surfaces
- F16J15/06—Sealings between relatively-stationary surfaces with solid packing compressed between sealing surfaces
- F16J15/08—Sealings between relatively-stationary surfaces with solid packing compressed between sealing surfaces with exclusively metal packing
- F16J15/0818—Flat gaskets
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16J—PISTONS; CYLINDERS; SEALINGS
- F16J15/00—Sealings
- F16J15/02—Sealings between relatively-stationary surfaces
- F16J15/06—Sealings between relatively-stationary surfaces with solid packing compressed between sealing surfaces
- F16J15/10—Sealings between relatively-stationary surfaces with solid packing compressed between sealing surfaces with non-metallic packing
- F16J15/104—Sealings between relatively-stationary surfaces with solid packing compressed between sealing surfaces with non-metallic packing characterised by structure
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16J—PISTONS; CYLINDERS; SEALINGS
- F16J15/00—Sealings
- F16J15/02—Sealings between relatively-stationary surfaces
- F16J15/06—Sealings between relatively-stationary surfaces with solid packing compressed between sealing surfaces
- F16J15/10—Sealings between relatively-stationary surfaces with solid packing compressed between sealing surfaces with non-metallic packing
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16J—PISTONS; CYLINDERS; SEALINGS
- F16J15/00—Sealings
- F16J15/02—Sealings between relatively-stationary surfaces
- F16J15/06—Sealings between relatively-stationary surfaces with solid packing compressed between sealing surfaces
- F16J15/08—Sealings between relatively-stationary surfaces with solid packing compressed between sealing surfaces with exclusively metal packing
- F16J15/0818—Flat gaskets
- F16J2015/0837—Flat gaskets with an edge portion folded over a second plate or shim
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16J—PISTONS; CYLINDERS; SEALINGS
- F16J15/00—Sealings
- F16J15/02—Sealings between relatively-stationary surfaces
- F16J15/06—Sealings between relatively-stationary surfaces with solid packing compressed between sealing surfaces
- F16J15/08—Sealings between relatively-stationary surfaces with solid packing compressed between sealing surfaces with exclusively metal packing
- F16J15/0818—Flat gaskets
- F16J2015/0856—Flat gaskets with a non-metallic coating or strip
Definitions
- the present invention relates to a casing sealing structure, and more particularly to a casing sealing structure in which a casing having a structure partitioned inside by a center plate is sealed by a gasket.
- a water pump that circulates cooling water of a water-cooled engine such as an automobile has an impeller disposed in an internal space of a casing (also referred to as a body) formed by a case and a cover being brought into contact with each other, and rotates the impeller.
- a casing also referred to as a body
- cooling water is sucked into the casing from the radiator and flows out toward the engine outside the casing.
- a casing of such a water pump has a center plate (also called a partition plate) so as to partition the cooling water flow path into an upstream side (inflow side, radiator side) and a downstream side (outflow side, engine side).
- a center plate also called a partition plate
- an object of the present invention is to provide a sealing structure for a casing that can reduce the number of gaskets used and can be further reduced in weight while ensuring a sealing function by the gasket.
- a case with an open top A cover that forms a fluid flow path inside by being attached to the upper part of the case; A center plate that is arranged between the case and the cover and partitions an internal space into the case side and the cover side;
- a casing sealing structure comprising a gasket disposed between the case and the cover, The center plate is formed in a size that fits on the inner peripheral side of the gasket seal line and overlapped with the gasket, The gasket is compressed at the abutting surfaces of the case and the cover by attaching the cover to the upper part of the case with the gasket and the center plate being sandwiched therebetween.
- Characteristic casing sealing structure characteristic casing sealing structure. 2.
- the fixing means includes a claw portion provided on at least one of the gasket and the center plate, and the claw portion is bent so as to tie the center plate or the gasket so that the center plate becomes the gasket.
- the casing sealing structure according to claim 2 wherein the casing sealing structure is fixed to the casing. 4).
- the fixing means is a rivet, and the center plate is riveted to the gasket. 5.
- a sealing structure of a casing that can reduce the number of gaskets used and can be further reduced in weight while ensuring a sealing function by the gasket.
- the disassembled perspective view which shows one Embodiment in the seal structure of the casing which concerns on this invention
- the perspective view which shows the gasket and center plate of the seal structure shown in FIG. End view of casing cut along line (iii)-(iii) in FIG. End view of casing cut along line (iv)-(iv) in FIG. End view of the casing cut along line (v)-(v) in FIG.
- the perspective view which shows the state which turned the cover of the casing shown in FIG.
- Embodiment of the 1st invention demonstrated below illustrates about the seal structure of the casing for water pumps.
- the water pump since the water pump has a known configuration, only the portion related to the sealing structure of the casing is shown for clarity of the present invention, and some components of the water pump are excluded. The illustration is omitted.
- FIG. 1 is an exploded perspective view showing an embodiment of a sealing structure of a casing according to the present invention
- FIG. 2 is a perspective view showing a gasket and a center plate of the sealing structure shown in FIG. 1
- FIG. 4 is an end view taken along line (iii)-(iii) in FIG. 1
- FIG. 4 is an end view taken along line (iv)-(iv) in FIG. 1
- FIG. 1 is an end view taken along line (v)-(v) in FIG. 1
- FIG. 6 is a perspective view showing a state in which the cover of the casing shown in FIG. 1 is turned upside down.
- the casing 1 includes a case 2 and a cover 3, and one gasket 4 and one center plate 5 are disposed between the case 2 and the cover 3.
- the cover 3 is attached from the upper part of the case 2 so as to sandwich the gasket 4 and the center plate 5 therebetween, thereby forming a flow path of the cooling water inside.
- the case 2 and the cover 3 are illustrated as independent components, but may be configured as a part of an engine or a related component, for example.
- the case 2 has an appropriate number of bolt holes 22 on the outside of the side peripheral wall 21, and has an upstream chamber 23 communicating with the radiator and a downstream chamber 24 communicating with the engine on the inside.
- the upstream chamber 23 has an inlet (not shown) through which cooling water flows from the radiator.
- the downstream chamber 24 has an outlet (not shown) through which cooling water flows out to the engine by the rotation of the impeller 100 (see FIG. 5) disposed inside the cover 3.
- the upstream chamber 23 and the downstream chamber 24 are formed by dividing the inside of the case 2 into two regions by a partition wall 25 provided between the opposing peripheral walls 21.
- the upper end surface 251 of the partition wall 25 is formed to have the same height as the upper end surface 211 of the side peripheral wall 21.
- the upstream chamber 23 and the downstream chamber 24 are opened toward the upper portion of the case 2 where the cover 3 is provided.
- the cover 3 has a side peripheral wall 31 having the same shape as the side peripheral wall 21 of the case 2, and a bolt hole 32 having a position and a number corresponding to the bolt holes 22 of the case 2 is provided outside the side peripheral wall 31. It is arranged.
- the abutting surfaces of the case 2 and the cover 3 are formed by the upper end surface 311 of the side peripheral wall 31 of the cover 3 and the upper end surface 211 of the side peripheral wall 21 of the case 2.
- a through wall 34 through which the shaft 101 (see FIG. 5) of the impeller 100 passes is formed in the bottom wall 33 of the cover 3 corresponding to the upstream chamber 23 of the case 2.
- the cover 3 is attached to the upper part of the case 2, thereby forming a fluid flow path 35 that allows the upstream chamber 23 and the downstream chamber 24 to communicate with each other beyond the partition wall 25 of the case 2.
- the gasket 4 is formed of a thin metal substrate made of, for example, stainless steel, cold rolled steel plate, galvanized steel plate, aluminum plywood or the like.
- the surface of the metal substrate is preferably coated with an elastic body in order to improve the sealing performance.
- an elastic body for example, synthetic rubber (including foamed rubber) containing at least one of nitrile rubber, styrene butadiene rubber, fluorine rubber, acrylic rubber, and silicon rubber can be used.
- a base treatment layer (not shown) on the surface of the metal substrate in order to improve the adhesion of the elastic body.
- the gasket 4 is formed to have a shape along the upper end surfaces 211 and 311 of the side peripheral walls 21 and 31 of the case 2 and the cover 3 so as to entirely surround the upstream chamber 23 and the downstream chamber 24 of the case 2.
- an annular bead portion 41 is formed over the entire circumference along the upper end surfaces 211 and 311 serving as the butting surfaces.
- the annular bead portion 41 forms a seal line for sealing between the case 2 and the cover 3.
- the gasket 4 has a support end portion 43 provided along the upper end surface 251 of the partition wall 25 of the case 2.
- the support end portion 43 is formed with a bead portion 42 for connecting the annular bead portions 41 to seal the upper end surface 251 of the partition wall 25.
- each bead part 41 and 42 is comprised by the full bead which becomes convex shape toward the case 2 side, other bead shapes, such as a half bead, may be sufficient.
- the outer periphery of the gasket 4 is formed with bolt holes 44 of positions and numbers corresponding to the bolt holes 22 and 32 of the case 2 and the cover 3.
- the center plate 5 is formed of, for example, a thin metal substrate made of the same metal as the gasket 4 and is disposed on the cover 3 side of the gasket 4.
- the center plate 5 leaves a small hole-like channel hole 51 serving as a cooling water channel from the upstream chamber 23 toward the cover 3 so as to substantially block the upper opening of the upstream chamber 23 of the case 2.
- the upper part of the upstream chamber 23 of the case 2 is formed so as to be sealed.
- the channel hole 51 of the center plate 5 is disposed at a position corresponding to the impeller 100 (see FIG. 5) disposed on the cover 3 side.
- the size of the center plate 5 is formed to a size that fits on the inner peripheral side of the annular bead portion 41 that is the seal line of the gasket 4. Specifically, the outer peripheral edge of the center plate 5 is formed so as not to reach the annular bead portion 41 of the gasket 4, and the end of the center plate 5 facing the downstream chamber 24 side of the case 2. The part 52 does not reach the downstream chamber 24 of the case 2 and does not block the upper opening of the downstream chamber 24. The end portion 52 is disposed so as to overlap the bead portion 42 of the gasket 4.
- the center plate 5 shown in the present embodiment is formed so as not to come into contact with the upper end surface 311 of the side peripheral wall 31 of the cover 3 which is a butt surface with the case 2. That is, the center plate 5 is formed such that the outer peripheral edge is sized along the inner surface of the side peripheral wall 31 of the cover 3, and when the center plate 5 is sandwiched between the case 2 and the cover 3 together with the gasket 4, The three butted surfaces (upper end surfaces 211, 311) of the three are not approached.
- the engaging portion 36 On the inner surface of the side peripheral wall 31 of the cover 3, there is provided an engaging portion 36 that is accommodated by fitting and engaging the center plate 5 when the gasket 4 and the center plate 5 are sandwiched between the case 2. (See FIGS. 4 and 6).
- the engaging portion 36 forms a step on the inner surface of the side peripheral wall 31 of the cover 3 that is lower than the upper end surface 311 of the side peripheral wall 31 by the thickness of the center plate 5 toward the bottom wall 33 of the cover 3. As shown in FIG. 6, it is comprised by the strip
- Such an engaging portion 36 functions to prevent the center plate 5 from being lifted to the cover 3 side by the pressure of the fluid flowing from the upstream chamber 23 of the case 2 through the flow path hole 51 to the cover 3 side.
- the function of partitioning the flow path by the center plate 5 is maintained, and the fluid can be smoothly distributed.
- the center plate 5 is engaged so as to be accommodated in the engaging portion 36, and at the same time, the center plate 5 is positioned at an appropriate position.
- the engaging portion 36 is not limited to such a belt-like portion 361 but may be formed by a plurality of protruding portions 362 that partially protrude from the inner surface of the side peripheral wall 31 of the cover 3 as shown in FIG. Compared to the belt-like portion 361, the material of the engaging portion 36 can be reduced, and the weight of the cover 3 can be reduced accordingly.
- the engaging portion 36 may be formed in a step shape by being recessed from the upper end surface 311 of the side peripheral wall 31 of the cover 3 by the thickness of the center plate 5.
- the casing 1 has a gasket 4 and a center plate 5 which are overlapped with each other between the case 2 and the cover 3 so that the center plate 5 is disposed on one side of the gasket 4 (in this embodiment, the cover 3 side). It is formed by clamping and integrally fastening with fastening members (not shown) such as bolts using the bolt holes 22, 32, 44 of the case 2, the cover 3 and the gasket 4.
- the center plate 5 is accommodated and engaged with the engaging portion 36, so that the center plate 5 is the annular bead of the gasket 4.
- the influence on the compression of the portion 41 can be reduced, the sealing performance can be further improved, and the floating of the center plate 5 due to the fluid pressure can be suppressed.
- the center plate 5 is fixed to the gasket 4 by a fixing means at a portion deviated from the seal line by the annular bead portion 41.
- the gasket 4 and the center plate 5 can be handled as an integrated object, handling property can be improved, and mounting workability of the gasket 4 and the center plate 5 can be improved.
- the fixing means is constituted by a claw portion 45 provided at the support end portion 43 of the gasket 4 provided along the upper end surface 251 of the partition wall 25.
- the center plate 5 can be fixed to the gasket 4 without affecting the sealing function by the annular bead portion 41.
- the claw portion 45 is formed so that it can be bent appropriately from the support end portion 43 of the gasket 4, and after the center plate 5 is overlapped, the center plate 5 is bent so as to tie.
- the center plate 5 can be fixed to the gasket 4 by bending the claw portion 45. Since the gasket 4 and the center plate 5 can be fixed only by bending the claw portion 45, the fixing operation is very simple.
- Such a claw portion 45 may be provided not on the gasket 4 side but on the center plate 5 side, or on both the gasket 4 side and the center plate 5 side. Moreover, the position and number which provide the nail
- the gasket 4 and the center plate 5 may be integrally riveted by a rivet 53 at a position where the sealing function by the annular bead portion 41 is not affected.
- the gasket 4 is overlapped on the inner peripheral side of the annular bead portion 41 which is a seal line as shown in the present embodiment. It is preferable to form a support portion 46 for supporting the combined center plate 5.
- the flat portion 461 is provided inside the annular bead portion 41 on the upstream chamber 23 side of the bead portion 42 on the support end portion 43 of the gasket 4 so as to substantially close the upper opening of the upstream chamber 23 of the case 2. It has been.
- the upper opening surface of the downstream chamber 24 of the gasket 4 is not blocked, and an opening 48 is provided in the gasket 4.
- the opening 48 forms a fluid flow path that allows the upstream chamber 23 of the case 2, the flow path 35 of the cover 3, and the downstream chamber 24 of the case 2 to communicate with each other.
- a small hole-shaped flow path hole 47 is formed that serves as a flow path of cooling water from the upstream chamber 23 of the case 2 toward the cover 3 side.
- the channel hole 47 is disposed so as to communicate with the channel hole 51 of the center plate 5.
- the overlapping state of the gasket 4 and the center plate 5 can be stabilized, and the handling property in the overlapped state can be further improved.
- the flat surface portion 461 can support the center plate 5 with a surface, the flat surface portion 461 can be stably supported.
- the support portion 46 may be configured by an appropriate number of beam portions 462 formed inside the annular bead portion 41 of the gasket 4 as shown in FIG. 9 instead of the flat portion 461.
- the beam portion 462 is formed in a narrow width so as to bridge the annular bead portion 41 and supports the center plate 5 in a beam shape.
- the support end portion 43 located on the upper end surface 251 of the partition wall 25 of the support portion 46 of the gasket 4 becomes a bridging portion 431 in which a bead portion 42 is formed on the back surface, and seals the upper end surface 251 of the partition wall 25.
- the material of the gasket 4 is reduced as compared with the case where the flat portion 461 is used, so that further weight reduction and material cost reduction can be achieved.
- the center plate 5 is arranged on the cover 3 side of the gasket 4, but it may be arranged on the case 2 side of the gasket 4.
- the engaging portion 36 described above may be provided on the case 2 side.
- the seal structure of the casing for the water pump has been described.
- the seal structure of the casing according to the present invention is not limited to that for the water pump.
- the second invention is to provide a sealing structure for a casing that can be further reduced in weight in a state in which a sealing function by a gasket is secured, and other problems will become apparent from the following description. Moreover, this subject is solved by the following means.
- a sealing structure of a casing comprising a laminated gasket in which plates are laminated,
- the entire upper part of the downstream chamber of the case is not sealed by the cover, but is sealed by the center plate of the laminated gasket, leaving a flow path hole for fluid to pass in a position close to the partition wall.
- the seal structure of the characteristic casing Preferably, the first gasket is formed so as to surround the entire upstream chamber and the downstream chamber of the case,
- the casing is characterized in that the second gasket is formed so as to surround from the upstream chamber of the case to the flow path hole of the center plate, thereby being smaller than the first gasket. This is a seal structure.
- the flow path is formed over a range from the upstream chamber of the case to the flow path hole of the center plate, and the center sealing the downstream chamber of the case.
- the cover is formed smaller than the case so as to cover a range from the upstream chamber of the case to the flow path hole of the center plate along the outer shape of the second gasket.
- the second invention it is possible to provide a sealing structure for a casing that can be further reduced in weight while ensuring a sealing function by a gasket.
- each embodiment demonstrated below illustrates about the seal structure of the casing for water pumps.
- the water pump since the water pump has a known configuration, only the portion related to the sealing structure of the casing is shown for clarity of the present invention, and some components of the water pump are excluded. The illustration is omitted.
- FIG. 10 is an exploded perspective view showing an embodiment of the sealing structure of the casing according to the second invention
- FIG. 11 is a perspective view showing a state in which the cover of the casing shown in FIG. 10 is turned upside down
- FIG. 13 is the perspective view which fractures
- FIG. 14 is the figure which expands and shows the A section in FIG. 15 is an enlarged view of a portion B in FIG.
- the casing 1 has a case 6 and a cover 7, and the cover 7 is attached from the upper part of the case 6 in the figure to constitute a flow path of cooling water inside.
- the case 6 and the cover 7 are illustrated as independent components, but may be configured as a part of an engine or a component related thereto, for example.
- the case 6 has an upstream chamber 62 communicating with the radiator and a downstream chamber 63 communicating with the engine inside the side peripheral wall 61.
- the upstream chamber 62 has an inlet (not shown) through which cooling water flows from the radiator.
- the downstream chamber 63 has an outlet 631 (see FIG. 13) through which cooling water flows out to the engine by rotation of the impeller 100 (see FIG. 11) disposed on the cover 7 side.
- the upstream chamber 62 and the downstream chamber 63 are formed by dividing the inside of the case 6 into two regions by a partition wall 64 provided between the opposing peripheral walls 61.
- the upper end surface 641 of the partition wall 64 is formed to have the same height as the upper end surface 611 of the side peripheral wall 61.
- the upstream chamber 62 and the downstream chamber 63 are opened toward the upper portion of the case 6 where the cover 7 is provided.
- a laminated gasket 8 is disposed between the case 6 and the cover 7.
- the laminated gasket 8 includes a first gasket 81 disposed on the case 6 side, a second gasket 82 disposed on the cover 7 side, and a center plate 83 disposed between the first gasket 81 and the second gasket 82. It is constituted by.
- the first gasket 81 and the second gasket 82 are formed by coating an elastic body on the surface of a thin metal substrate made of, for example, stainless steel, cold rolled steel plate, galvanized steel plate, aluminum plywood or the like.
- a thin metal substrate made of, for example, stainless steel, cold rolled steel plate, galvanized steel plate, aluminum plywood or the like.
- synthetic rubber including foamed rubber
- nitrile rubber styrene butadiene rubber
- fluorine rubber acrylic rubber
- acrylic rubber acrylic rubber
- silicon rubber silicon rubber
- the center plate 83 is formed of a thin plate using the same metal as the metal substrate.
- the first gasket 81 is formed in a shape along the upper end surface 611 of the side peripheral wall 61 so as to surround the entire upstream chamber 62 and downstream chamber 63 of the case 6, and at a portion corresponding to the partition wall 64.
- a bridging portion 811 is formed along the upper end surface 641 of the partition wall 64.
- a bead 812 is formed on the surface of the first gasket 81 over the entire circumference (including the bridging portion 811).
- the center plate 83 is formed so that its outer shape is the same as the outer shape of the first gasket 81. Then, in order to partition the space (cooling water flow path) formed between the case 6 and the cover 7 up and down, the region corresponding to the upstream chamber 62 of the case 6 is directed from the inside of the upstream chamber 62 to the cover 7 side.
- the center plate 83 is formed so as to seal the upper portion of the upstream chamber 62 of the case 6 except for the small hole-shaped first flow path hole 831 serving as the cooling water flow path.
- the first flow path hole 831 corresponds to the position of the impeller 100 disposed on the cover 7 side, and is disposed substantially at the center of the upstream chamber 62 of the case 6.
- a circular hole is used, but the specific shape is not particularly limited.
- the center plate 83 has a small hole-like second flow path hole 832 serving as a cooling water flow path from the cover 7 side toward the downstream chamber 63 of the case 6 in the region corresponding to the downstream chamber 63 of the case 6. Other than that, it is formed so as to block the upper opening of the downstream chamber 63 of the case 6.
- the second flow path hole 832 is disposed at a position close to the partition wall 64 of the case 6, preferably at a position adjacent to the partition wall 64 as shown in FIG.
- the specific shape is not particularly limited.
- the second gasket 82 is formed in a size surrounding the upstream chamber 62 of the case 6 to the second flow path hole 832 of the center plate 83.
- the second gasket 82 is formed in a shape surrounding the upstream chamber 62 in the same manner as the first gasket 81 at a portion corresponding to the upstream chamber 62 of the case 6, and the downstream chamber of the case 6.
- the portion corresponding to 63 is formed so that the second flow path hole 832 disposed in the vicinity of the partition wall 64 is positioned inside, and does not surround the entire downstream chamber 63. More specifically, as shown in FIG.
- the position of the inner edge 821 a at the end 821 on the downstream chamber 63 side of the second gasket 82 is the inner edge farthest from the partition wall 64 of the second flow path hole 832. It is formed so as to coincide with the position 832a. Therefore, the second gasket 82 is formed smaller than the first gasket 81. Further, a bead 822 is also formed on the entire surface of the second gasket 82 as shown in FIGS.
- the cover 7 has a side peripheral wall 71 having the same shape as the side peripheral wall 61 of the case 6, and between the opposing side peripheral walls 71 along the end portion 821 on the downstream chamber 63 side of the second gasket 82.
- a sealing wall 72 is formed across.
- the bottom wall 73 of the cover 7 is not formed over the entire side peripheral wall 71. Specifically, the upper part of the upstream chamber 62 of the case 6 is covered, but the upper part of the downstream chamber 63 is not covered, and is formed over the range from the upstream chamber 62 to the sealing wall 72. It has become only.
- the inside of the cover 7 covered with the bottom wall 73 of the cover 7 serves as a cooling water flow path 74 that allows the upstream chamber 62 and the downstream chamber 63 of the case 6 to communicate with each other. That is, the flow path 74 of the cover 7 is formed over a range from the upstream chamber 62 of the case 6 to the second flow path hole 832 of the center plate 83.
- the casing 1 is illustrated using the bolt holes formed in the case 6, the cover 7, and the laminated gasket 8 after the case 6 and the cover 7 are brought into contact with each other with the laminated gasket 8 interposed therebetween.
- the beads 812 and 822 of the first gasket 81 and the second gasket 82 are compressed by being tightened by the bolts that are not, and the reaction force of the beads 812 and 822 at that time makes the space between the case 6 and the cover 7 watertight. Seal and secure the sealing function.
- the upstream chamber 62, the downstream chamber 63, and the flow path 74 that communicates these are formed in the casing 1, and the cooling water flows from the upstream chamber 62 to the first chamber by the rotation of the impeller 100 disposed on the cover 7 side.
- the flow path hole 831 the flow path 74 is reached.
- the partition wall 64 is passed to reach the second flow path hole 832, and the second It flows through the flow path hole 832 to the downstream chamber 63.
- the bolt holes are arranged over the entire circumference of the side peripheral walls 61 and 71 of the case 6 and the cover 7.
- the bolt holes 65 arranged so as to sandwich the partition wall 64 of the case 6. 65 and the bolt 7 using the bolt holes 75, 75, 813, 813, 823, 823, 834, 834 of the cover 7 and the laminated gasket 8 corresponding to the first gasket.
- the beads 812 on the 81 bridging portions 811 can be compressed well, and the sealing performance of the upper end surface 641 of the partition wall 64 can be improved.
- the bolt holes 66, 66 arranged so as to sandwich the sealing wall 72 of the cover 7, and the bolt holes 76, 76, 814, 814 of the case 6 and the laminated gasket 8 arranged corresponding thereto,
- the bead 822 on the end portion 821 of the second gasket 82 can be favorably compressed, and the sealing performance at the sealing wall 72 is improved. Can be good.
- the center plate 83 blocks the upper opening of the downstream chamber 63 of the case 6, and the cover 7 blocks only the range from the upstream chamber 62 to the second flow path hole 832. Therefore, the sealing area by the cover 7 is reduced, and the weight of the cover 7 and the material cost can be reduced accordingly.
- the bottom wall of the cover 7 corresponding to the portion 833 of the center plate 83 that seals the downstream chamber 63 is opened. Since the cover 7 is made of a metal that is thicker than the thin plate-shaped center plate 83, the area of the center plate 83 increases, but the area of the bottom wall of the cover 7 corresponding thereto decreases. Overall, it leads to a lighter weight.
- this embodiment is preferable in the present invention because the second gasket 82 is also reduced in weight as compared with the first gasket 81, and the material cost can be reduced.
- a gap corresponding to the thickness of the second gasket 82 may be generated between the cover 7 and the portion 833 of the center plate 83 because the second gasket 82 is reduced in size. It is preferable that a step (not shown) corresponding to the gap is formed on the end surface of the side peripheral wall 71.
- FIG. 16 is an exploded perspective view showing another embodiment of the casing sealing structure according to the second invention
- FIG. 17 is a perspective view showing the entire configuration of the casing shown in FIG. 10 and 12 indicate parts having the same configuration, and the description thereof is omitted here because the description in FIGS. 10 and 12 is used.
- the casing 1 has a cover 7 that covers the range from the upstream chamber 62 of the case 6 to the second flow path hole 832 of the center plate 83 along the outer shape of the second gasket 82. Is also formed small.
- this cover 7 is not provided with a side peripheral wall before the sealing wall 72, and only the point that the sealing wall 72 is configured as a part of the side peripheral wall 71 is one embodiment of the second invention. This is different from the cover 7 shown in FIG.
- the cover 7 can be further reduced in size, and further weight reduction and material cost reduction can be achieved.
- the casing 1 can also be reduced in size because the cover 7 is reduced in size.
- the seal structure of the casing for the water pump has been described.
- the seal structure of the casing according to the second invention is not limited to that for the water pump.
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Abstract
Description
前記ケースの上部に取り付けられることにより、内部に流体の流路を形成するカバーと、
前記ケースと前記カバーとの間に配置され、内部空間を前記ケース側と前記カバー側とに仕切るセンタープレートと、
前記ケースと前記カバーとの間に配置されるガスケットとを備えてなるケーシングのシール構造であって、
前記センタープレートを、前記ガスケットのシールラインよりも内周側に収まる大きさに形成すると共に前記ガスケットと重ね合わせ、
該重ね合わせた前記ガスケット及び前記センタープレートを間に挟んで、前記ケースの上部に前記カバーが取り付けられることによって、前記ケースと前記カバーとの互いの突き合わせ面で前記ガスケットを圧縮していることを特徴とするケーシングのシール構造。
2.前記センタープレートは、前記ガスケットのシールラインから外れた部位に、固定手段によって前記ガスケットに固定されていることを特徴とする前記1記載のケーシングのシール構造。
3.前記固定手段は、前記ガスケットと前記センタープレートの少なくとも何れかに設けられた爪部からなり、該爪部が前記センタープレート又は前記ガスケットを抱き合わせるように折り曲げられることによって、前記センタープレートが前記ガスケットに固定されていることを特徴とする前記2記載のケーシングのシール構造。
4.前記固定手段はリベットからなり、前記センタープレートが前記ガスケットにリベット止めされていることを特徴とする前記2記載のケーシングのシール構造。
5.前記ガスケットのシールラインの内周側に、重ね合された前記センタープレートを支持するための支持部を形成したことを特徴とする前記1~4の何れかに記載のケーシングのシール構造。
6.前記支持部は、前記センタープレートを面で支持するための平面部であることを特徴とする前記5記載のケーシングのシール構造。
7.前記支持部は、前記センタープレートを梁状に支持するための梁部であることを特徴とする前記5記載のケーシングのシール構造。
8.前記ケース又は前記カバーに、前記センタープレートを係合させて収容する係合部を設けたことを特徴とする前記1~7の何れかに記載のケーシングのシール構造。
以下、本発明の実施形態について図面を参照して説明する。
第二発明は、ガスケットによるシール機能を確保した状態で、より軽量化を図ることが可能なケーシングのシール構造を提供することを課題とし、その他の課題は、以下の記載により明らかとなる。また、該課題は下記の手段により解決される。
前記ケースの上部に取り付けられることにより、内部に前記上流室と前記下流室とを連通させる流体の流路を形成するカバーと、
前記ケースと前記カバーとの間に設けられ、前記ケース側に配置される第1ガスケット、前記カバー側に配置される第2ガスケット及び前記第1ガスケットと前記第2ガスケットの間に配置されるセンタープレートが積層された積層ガスケットとを備えてなるケーシングのシール構造であって、
前記ケースの前記下流室の上部全体を、前記カバーによって封鎖せず、前記仕切り壁に近接した位置に流体が通るための流路穴を残して、前記積層ガスケットの前記センタープレートによって封鎖したことを特徴とするケーシングのシール構造である。
好ましくは、前記第1ガスケットは、前記ケースの前記上流室と前記下流室の全体に亘って取り囲むように形成され、
前記第2ガスケットは、前記ケースの前記上流室から前記センタープレートの前記流路穴までを取り囲むように形成されることにより、前記第1ガスケットよりも小さく形成されていることを特徴とする上記ケーシングのシール構造である。
好ましくは、前記カバーは、前記流路が前記ケースの前記上流室から前記センタープレートの前記流路穴までの範囲に亘って形成されると共に、前記ケースの前記下流室を封鎖している前記センタープレートの部位に対応する底壁が開放されていることを特徴とする上記ケーシングのシール構造である。
好ましくは、前記カバーは、前記第2ガスケットの外形形状に沿って、前記ケースの前記上流室から前記センタープレートの前記流路穴までの範囲を覆うように、前記ケースよりも小さく形成されていることを特徴とする上記ケーシングのシール構造である。
次に、図16は、第二の発明に係るケーシングのシール構造の他の実施形態を示す分解斜視図、図17は、図16に示すケーシングの全体構成を示す斜視図である。図10、図12と同一符号の部位は同一構成の部位を示しているため、それらの説明は図10、図12における説明を援用し、ここでは省略する。
2:ケース
21:側周壁
211:上端面
22:ボルト穴
23:上流室
24:下流室
25:仕切り壁
251:上端面
3:カバー
31:側周壁
311:上端面
32:ボルト穴
33:底壁
34:貫通部
35:流路
36:係合部
361:帯状部
362:突起部
4:ガスケット
41:環状ビード部(シールライン)
42:ビード部
43:支持端部
431:橋渡し部
44:ボルト穴
45:爪部
46:支持部
461:平面部
462:梁部
47:流路穴
5:センタープレート
51:流路穴
52:端部
53:リベット
100:インペラー
101:軸部
6:ケース
61:側周壁
611:上端面
62:上流室
63:下流室
631:流出口
64:仕切り壁
641:上端面
65、66:ボルト穴
7:カバー
71:側周壁
72:封止壁
73:底壁
74:流路
75、76:ボルト穴
8:積層ガスケット
81:第1ガスケット
811:橋渡し部
812:ビード
813、814:ボルト穴
82:第2ガスケット
821:端部
821a:内側縁
822:ビード
823、824:ボルト穴
83:センタープレート
831:第1の流路穴
832:第2の流路穴(流路穴)
832a:内側縁
833:部位
834、835:ボルト穴
Claims (8)
- 上部が開放されているケースと、
前記ケースの上部に取り付けられることにより、内部に流体の流路を形成するカバーと、
前記ケースと前記カバーとの間に配置され、内部空間を前記ケース側と前記カバー側とに仕切るセンタープレートと、
前記ケースと前記カバーとの間に配置されるガスケットとを備えてなるケーシングのシール構造であって、
前記センタープレートを、前記ガスケットのシールラインよりも内周側に収まる大きさに形成すると共に前記ガスケットと重ね合わせ、
該重ね合わせた前記ガスケット及び前記センタープレートを間に挟んで、前記ケースの上部に前記カバーが取り付けられることによって、前記ケースと前記カバーとの互いの突き合わせ面で前記ガスケットを圧縮していることを特徴とするケーシングのシール構造。 - 前記センタープレートは、前記ガスケットのシールラインから外れた部位に、固定手段によって前記ガスケットに固定されていることを特徴とする請求項1記載のケーシングのシール構造。
- 前記固定手段は、前記ガスケットと前記センタープレートの少なくとも何れかに設けられた爪部からなり、該爪部が前記センタープレート又は前記ガスケットを抱き合わせるように折り曲げられることによって、前記センタープレートが前記ガスケットに固定されていることを特徴とする請求項2記載のケーシングのシール構造。
- 前記固定手段はリベットからなり、前記センタープレートが前記ガスケットにリベット止めされていることを特徴とする請求項2記載のケーシングのシール構造。
- 前記ガスケットのシールラインの内周側に、重ね合された前記センタープレートを支持するための支持部を形成したことを特徴とする請求項1~4の何れかに記載のケーシングのシール構造。
- 前記支持部は、前記センタープレートを面で支持するための平面部であることを特徴とする請求項5記載のケーシングのシール構造。
- 前記支持部は、前記センタープレートを梁状に支持するための梁部であることを特徴とする請求項5記載のケーシングのシール構造。
- 前記ケース又は前記カバーに、前記センタープレートを係合させて収容する係合部を設けたことを特徴とする請求項1~7の何れかに記載のケーシングのシール構造。
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US15/535,941 US10371160B2 (en) | 2014-12-19 | 2015-10-15 | Sealing structure for casing |
CN201580069204.3A CN107110358B (zh) | 2014-12-19 | 2015-10-15 | 箱体的密封结构 |
EP15869641.9A EP3236115B1 (en) | 2014-12-19 | 2015-10-15 | Seal structure for casing |
JP2016535759A JP5999292B1 (ja) | 2014-12-19 | 2015-10-15 | ケーシングのシール構造 |
US16/183,118 US10670032B2 (en) | 2014-12-19 | 2018-11-07 | Sealing structure for casing |
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US16/183,118 Division US10670032B2 (en) | 2014-12-19 | 2018-11-07 | Sealing structure for casing |
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US20230072950A1 (en) * | 2020-02-12 | 2023-03-09 | Nok Corporation | Gasket |
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US10670032B2 (en) | 2020-06-02 |
US20170343000A1 (en) | 2017-11-30 |
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JPWO2016098433A1 (ja) | 2017-04-27 |
CN107110358A (zh) | 2017-08-29 |
EP3236115A1 (en) | 2017-10-25 |
JP5999292B1 (ja) | 2016-09-28 |
US10371160B2 (en) | 2019-08-06 |
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US20190072101A1 (en) | 2019-03-07 |
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