The invention relates to a centrifugal pump to supply a fluid, which is a cooling water of various machines such as a personal computer, a computer server, and a printer, and a cooling water such as internal combustion engine, and a refrigerant used for a refrigerant circulation circuit etc. of an air conditioning machine such as an air conditioner and a freezer.
Conventionally, for instance, as a centrifugal pump to cool a small machine such as a cooling water of comparatively small machine such as a personal computer, a computer server and a printer, as described in Patent Document 1 (JP 2003-13878, A), a centrifugal pump is disclosed.
The centrifugal pump in Patent Document 1 is a centrifugal pump, in which a structure of an impeller is improved to form a plurality of passage portion that is radially extended from the center thereof where the fluid is flown.
As a result, the circulation volume change of cooling water is a little and the change in the cooling capability is hardly occurred.
Moreover, in Patent Document 2 (JP 2003-161284, A), an impeller is formed such that a multitude of blade is formed on the outer periphery and a rotor magnet is provided on the inner periphery, and a motor stator is disposed on the inner periphery side of the rotor magnet.
As a result, a thin centrifugal pump that can achieve an efficient cooling while attaining reducing the thickness is disclosed.
JP 2003-13878, A
JP 2003-161284, A
However, in such a conventional centrifugal pump, it is possible to apply to cooling of a comparatively small machine.
It is not a strong airtight structure so that it is unsuitable to use for the fluid in which the resisting pressure and the air-tight are required, for example, a cooling water such as internal combustion engine, and a refrigerant used for a refrigerant circulation circuit etc. of an air conditioning machine such as an air conditioner and a freezer.
Moreover, in the structure of the conventional centrifugal pump, the coil portion that is the motor stator cannot be detached.
Even if the casing and the piping, etc. of metallic are used for the fluid in which the resisting pressure and the air-tight are required, heating fixation such as welding, soldering and adhesion can not be applied.
Therefore, a high air-tight metal casing and the piping can not be used.
In addition, a bearing of the impeller comprises a bearings which is disposed on one side of the shaft of the impeller.
Therefore, it would be unstable and there are problems in durability and silence.
In addition, in such a conventional structural centrifugal pump, the bearing is in the fluid and the lubricant cannot be used.
As a result, the axial member and the impeller will be worn out and damaged by the rotation of the impeller, so that loose and eccentricity are caused in the impeller.
Therefore, it is difficult to maintain an expected pump performance.
The invention considers such a current state and is to provide a centrifugal pump, in which, heating fixation such as welding, soldering and adhesion can be applied, a high air-tight metal casing and the piping can be used, and it can be used for the fluid in which the resisting pressure and the air-tight are required.
Moreover, the invention is to provide a centrifugal pump, in which the bearing of the rotating blade member is a stable structure, and durability and silence are excellent.
Moreover, the invention is to provide a centrifugal pump, in which in non-lubrication condition in which the bearing is in the fluid, sliding ability is excellent, the axial member and the impeller will not be worn out and damaged by the rotation of the impeller so that loose and eccentricity are not caused in the impeller, and the desired pump performance can be retained.
The invention was invented to achieve the object and the purpose in the above-mentioned prior art, the centrifugal pump of the invention is a centrifugal pump comprising,
a rotating blade member including an impeller and a rotor magnet disposed under the impeller,
a metallic main body casing in which the rotating blade member is accommodated,
a metallic suction side coupling member which is disposed as connected to the main body casing to introduce a fluid into the impeller,
a metallic discharge side coupling member which is disposed as connected to the main body casing to exhaust the fluid by rotating of the impeller,
a coil portion which is disposed as to be located in periphery of the rotor magnet and rotates the rotating blade member, and
the main body casing comprising,
an upper main body casing,
a lower main body casing fixed to the upper main body casing, and
a blade casing, in which an interior space formed by the upper main body casing and the lower main body casing is partitioned, and in which a fluid introducing passage is formed on the upper portion and a rotating accommodating space to accommodate the rotating blade member is formed on lower portion,
wherein a joint portion of the upper main body casing, the lower main body casing, and the blade casing is fixed on the state of sealing, and
a joint portion of the suction side coupling member and the main body casing and a joint portion of the discharge side coupling member and the main body casing are fixed on the state of sealing.
By composing like this, a joint portion between the upper main body casing which composes the metallic main body casing, the lower main body casing, and the blade casing can be fixed, for instance, by heating such as welding, soldering and adhesion. As a result, they can be fixed on the state of sealing.
Moreover, the joint portion of the metallic suction side coupling member and the main body casing and a joint portion of the discharge side coupling member and the main body casing can be fixed, for instance, by heating such as welding, soldering and adhesion.
As a result, they can be fixed on the state of sealing.
That is, it has a structure that a jointing method with the air-tight and maintenance strength such as welding and soldering can be applied to these connecting portions.
Thus, they can be fixed by heating such as welding, soldering and adhesion.
Consequently, a high air-tight metal casing and the piping can be used, and it can be used for the fluid in which the resisting pressure and the air-tight are required.
Moreover, it has the blade casing, in which an interior space formed by the upper main body casing and the lower main body casing is partitioned.
In addition, it has the blade casing, in which the fluid introducing passage is formed on the upper portion and in which a rotating accommodating space to accommodate the rotating blade member is formed on lower portion.
Therefore, the path of the fluid can be easily formed.
Moreover, the centrifugal pump of the invention is characterized in that the main body casing comprises a metallic press molded article and the suction side coupling member and the discharge side coupling member comprise the metal pipe.
Like this, the main body casing comprises a metallic press molded article and the suction side coupling member and the discharge side coupling member comprise the metal pipe.
As a result, a jointing method with the air-tight and maintenance strength such as welding and soldering can be applied to these connecting portions. Moreover, the cost can be reduced.
Moreover, the centrifugal pump of the invention is characterized in that the main body casing and the coil portion are detachably fixed by a detaching means.
By composing like this, the main body casing and the coil portion are detachably fixed by a detaching means.
As a result, before fixing the coil portion to the main body casing, for instance, heating fixation such as welding, soldering and adhesion and a processing which requires heating can be applied to the main body casing, so that working property is improved.
Moreover, because the main body casing and the coil portion are detachably fixed by the detaching means, the exchange when the coil portion is broken down can be facilitated.
In addition, draw direction and coupling direction of wire can be arbitrarily selected.
Moreover, the centrifugal pump of the invention comprising, an upper bearing member which is disposed on the upper main body casing and in which an upper part of an axial member of the rotating blade member is pivoted, and
a lower bearing member which is disposed on the lower main body casing and in which a lower part of the axial member of the rotating blade member is pivoted,
wherein a connecting passage, in which the fluid introducing passage and the rotating accommodating space are connected, is formed on the upper bearing member.
By composing like this, the axial member of the rotating blade member is pivoted by the upper bearing member and the lower bearing member.
Therefore, a bearing of the rotating blade member is a stable structure so that an excellent centrifugal pump in durability and silence can be provided.
That is, the rotation of the rotating blade member is stable, the noise when rotating is reduced.
Moreover, the vibration of the rotating blade member is reduced so that durability can be also improved.
In addition, the connecting passage, in which the fluid introducing passage and the rotating accommodating space are connected, is formed on the upper bearing member.
As a result, piping etc. is not needed separately and the passage can be easily formed.
Moreover, the centrifugal pump of the invention is characterized in that,
the axial member of the rotating blade member is fixed on the upper bearing member and the lower bearing member, and
the rotating blade member is composed such that the rotating blade member is rotated around the outer periphery of the axial member.
By composing like this, the axial member of the rotating blade member is fixed on the upper bearing member and the lower bearing member, and the rotating blade member is composed such that the rotating blade member is rotated around the outer periphery of the axial member.
Therefore, the rotation sliding area is increased between the rotating blade member and the outer periphery of the axial member, and the contact surface pressure is reduced.
As a result, the rotation of the rotating blade member is stable, the noise when rotating is reduced.
Moreover, the vibration of the rotating blade member is reduced so that durability can be also improved.
Moreover, the centrifugal pump of the invention is characterized in that
the axial member is fixed on the rotating blade member, and
the rotating blade member is composed such that the rotating blade member is rotated between the upper bearing member and the axial member and between the lower bearing member and the axial member.
By composing like this, the axial member is fixed on the rotating blade member, and the rotating blade member is composed such that the rotating blade member is rotated between the upper bearing member and the axial member and between the lower bearing member and the axial member.
As a result, the rotation of the rotating blade member is stable, the noise when rotating is reduced.
Moreover, the vibration of the rotating blade member is reduced so that durability can be also improved.
Moreover, the centrifugal pump of the invention is characterized in that a rotating part between the rotating blade member and the axial member comprises synthetic resin having a high slidability.
Moreover, the centrifugal pump of the invention is characterized in that a rotating part between the upper bearing member, the lower bearing member, and the axial member comprises synthetic resin having a high slidability.
Like this, the rotating part comprises synthetic resin having a high slidability, for instance, lubricant resin (PPS, PTFE) having chemical resistance.
As a result, the invention is to provide a centrifugal pump, in which in non-lubrication condition in which the bearing is in the fluid, sliding ability is excellent, the axial member and the impeller will not be worn out and damaged by the rotation of the impeller so that loose and eccentricity are not caused in the impeller, and the desired pump performance can be retained.
According to the invention, a joint portion of the upper main body casing which composes the metallic main body casing, the lower main body casing, and the blade casing can be fixed, for instance, by heating such as welding, soldering and adhesion.
As a result, they can be fixed on the state of sealing.
Moreover, the joint portion of the metallic suction side coupling member and the main body casing and a joint portion of the discharge side coupling member and the main body casing can be fixed, for instance, by heating such as welding, soldering and adhesion.
As a result, they can be fixed on the state of sealing.
That is, it has a structure that a jointing method with the air-tight and maintenance strength such as welding and soldering can be applied to these connecting portions.
Thus, they can be fixed by heating such as welding, soldering and adhesion.
Consequently, a high air-tight metal casing and the piping can be used, and it can be used for the fluid in which the resisting pressure and the air-tight are required.
Moreover, it has the blade casing, in which an interior space formed by the upper main body casing and the lower main body casing is partitioned.
In addition, it has the blade casing, in which the fluid introducing passage is formed on the upper portion and in which a rotating accommodating space to accommodate the rotating blade member is formed on lower portion.
Therefore, the path of the fluid can be easily formed.
Hereafter, the embodiment of the invention (Embodiment) is described in the detail or more on the basis of the drawing.
In
As shown in
As shown in
In addition, the number of sheets of this blade member 16 may be elected according to the usage of centrifugal pump 10 and the pump ability that is required, and is not limited especially.
As shown in
By forming the shape of the blade member 16 to such shape, the discharge ability can be improved by function of the outside blade portion 22 by rotating of the blade member 16.
Moreover, on the rotating blade member 12, a rotor magnet accommodating portion 24, which is extended in the direction of the outer periphery, is formed under the bearing portion 14.
The rotor magnet accommodating portion 24 is provided with a flange portion 26 which is extended from the lower side of the bearing portion 14 in direction of outer periphery, and a support portion 28 which is downwardly extended from the flange portion 26.
Moreover, in a recess 30 which comprises this flange portion 26 and the support portion 28, a rotor magnet 32, which comprises an annular permanent magnet, is fitted.
Furthermore, as shown in
The main body casing 34 is provided with an upper main body casing 36.
The upper main body casing 36 comprises a top wall 38 and a side peripheral wall 40 which is downwardly extended from outer periphery of the top wall 38.
Moreover, as shown in
As shown in
As a result, the suction side coupling member 42 is connected to the main body casing 34.
Moreover, as shown in
The central angle degree of the opening of the flange 50 is shifted with that of an opening portion to fix the suction side coupling member 42 (in this Embodiment, the central angle degree is shifted 45 degree).
In addition, this shifting angle can not be especially limited, and can be changed by the design change according to the usage etc.
As shown in
As a result, the discharge side coupling member 46 is connected to the main body casing 34.
Moreover, as shown in
Moreover, on an inner wall of a lower end 51 of the side peripheral wall 40 of the upper main body casing 36, an outer periphery flange 52 of the lower main body casing 48 is sealingly fixed by, for instance, such as welding, soldering and adhesion.
As a result, in the main body casing 34, an interior space S1, which is surrounded with the upper main body casing 36 and the lower main body casing 48, is formed.
As shown in
In addition, under this rotor magnet accommodating portion 56, a lower bearing member accommodating portion 58, which has a bottom and is cylindrical shape, is formed.
Moreover, in the lower bearing member accommodating portion 58, a lower bearing member 60 is fitted by, for instance, press fit etc.
In a shaft hole 62 formed on this lower bearing member 60, a lower end portion 66 of an axial member 64 is fixed as pivoted by, for instance, press fit etc.
Moreover, in the bearing portion 14 of this rotating blade member 12, the axial member 64 is passed through so that the rotating blade member 12 can be rotated around.
In addition, as shown in
An outer periphery flange 70 of this blade casing 68 is sealingly fixed by, for instance, such as welding, soldering and adhesion, in the state that it is sandwiched between the lower end 51 of the upper main body casing 36 and the outer periphery flange 52 of the lower main body casing 48.
Moreover, the blade casing 68 is provided with a side peripheral wall 72, which is upwardly extended from the outer periphery flange 70, and a bending portion 74, which is downwardly bended as having a shape along the bending portion 20 of the blade member 16 from the side peripheral wall 72.
In addition, an inner periphery flange 75, which is upwardly extended from the bending portion 74, is formed.
By having such shape, between the blade accommodating portions 54 of the blade casing 68 and the lower main body casing 48, the blade member 16 can be accommodated.
Moreover, an upper bearing member 78 is fitted to an inner periphery flange 75 of the blade casing 68 by, for instance, press fit etc.
As a result, by the inner periphery flange 75 of blade casing 68, the upper bearing member 78 is stably supported so that eccentricity and the vibration by the rotation of the rotating blade member 12 can be prevented.
In a shaft hole 80 formed on this upper bearing member 78, a top portion 82 of the axial member 64, which is passed through in the bearing portion 14 of the rotating blade member 12, is fixed as pivoted by, for instance, press fit etc.
Moreover, as shown in
In addition, the height of the side peripheral wall 72 of the blade casing 68 is formed smaller than the height of the side peripheral wall 40 of the upper main body casing 36.
As a result, by the blade casing 68, the interior space S1, which is formed by the upper main body casing 36 and the lower main body casing 48, is partitioned.
Consequently, a fluid introducing passage 84 is formed on the upper part.
Moreover, a rotating accommodating space S2, in which the rotating blade member 12 is accommodated, is formed on the lower part.
Moreover, as shown in
In addition, the discharge side coupling member 46 is sealingly fixed by, for instance, such as welding, soldering and adhesion, together with a flange 50 of the side peripheral wall 40 of the upper main body casing 36.
As a result, the discharge side coupling member 46 is connected to the rotating accommodating space S2 of the main body casing 34.
In addition, in the direction (counterclockwise in
In this case, as shown in
Moreover, the connecting part of this enlarged diameter portion 72a and the flange 76 composes a guide portion 72b, which is in the state that it is inscribed to the side peripheral wall 40 of the upper main body casing 36.
On the other hand, as shown in
By composing like this, as shown in
Moreover, by rotating of the blade member 16 of the rotating blade member 12, as showed by arrow G, the fluid is guided from the enlarged diameter portion 72a to the guide portion 72b.
As a result, the fluid is abutted (i.e. pressed) to the flow control sidewall portion 72c.
Consequently, the fluid pressure of the inside of the blade casing 68 is risen, and there is an effect that flowing quantity is increased.
On the other hand, as shown in
That is, in this Embodiment, four notch portions 88, which are formed mutually spaced by 90 degrees of the central angle degree, are formed.
Moreover, on the center section of the upper bearing member 78, a central axis receiving portion 90, in which the shaft hole 80 is formed on the lower part, is provided.
It is connected with a plurality of ribs 92 between this central axis receiving portion 90 and the sidewall 86.
That is, in this Embodiment, it is connected with four ribs 92, which are formed mutually spaced by 90 degrees of the central angle degree corresponding to four notch portions 88.
By composing like this, as shown in
Consequently, as shown by arrow B of
Moreover, the fluid passed through the notch portion 88 is introduced into the rotating accommodating space S2, which is formed by the blade casing 68 and the lower main body casing 48, through the vertical passage 94.
In addition, as shown in
As shown in
Moreover, an engaging portion 102 is formed on the center section of an engaging piece 100 as protruded upwardly.
In this Embodiment, as shown in
Moreover, as shown in
The coil portion 104 is provided with a plurality of coils 110, which comprises a winding wire 108 rolled in a bobbin casing 106.
In addition, on an electronic substrate 112 for performing electronic control, the coil portion 104 is disposed in the direction of a circumference at the fixed interval (not shown).
Moreover, these coils 110 are molded with the molding resin, so that a molding resin portion 114 is formed.
As a result, it is integrated, and the coil portion 104 is formed.
In addition, though not shown in the drawing, the coil portion 104 molded with the molding resin, as described later, in order to easily fix a coil side fixing bracket 116 on the coil portion 104, is a square pole shape.
Moreover, as shown in
In addition, as shown in
As shown in
On the center thereof, an opening portion 122, which is corresponding to the accommodating recess 118 of the coil portion 104, is formed.
Moreover, on the inner periphery edge of the opening portion 122, two engaging pieces 124, which are disposed oppositely to each other, is formed to be protruded above the inner periphery side.
On the tip of this engaging piece 124, an engaging notch portion 126 is formed.
As described later, it is composed that the engaging portion 102 of the main body casing side fixing bracket 96 is engaged with the engaging notch portion 126 of the coil side fixing bracket 116.
In addition, on four corner portions of the coil side fixing bracket main body 120, a fixing piece 128 having substantially L shape section is respectively formed.
The fixing piece 128 is provided with a fixing piece main body 130, and an engaging piece 132, which is formed by bending toward inside on the tip of the fixing piece main body 130.
In the coil side fixing bracket 116 composed like this, under the condition that the fixing piece main body 130 is expanded, it is installed to the coil portion 104.
Thereafter, the fixing piece main body 130 is narrowed, and is engaged by the engaging piece 132, so that it can be fixed to the coil portion 104.
As for the method in which the coil portion 104 composed like this is detachably provided under the main body casing 34, the following method can be adopted.
That is, as shown by arrow C of
Under such a condition, as shown by arrow D of
As a result, the engaging piece 124 of the coil side fixing bracket 116 and the engaging piece 100 of main body casing side fixing bracket 96 are engaged.
In addition, the engaging portion 102 of the main body casing side fixing bracket 96 is elastically deformed.
Consequently, it is engaged and fixed to the engaging notch portion 126 of the coil side fixing bracket 116 with so-called snap fit type engaging.
Moreover, in order to detach the coil portion 104 from the main body casing 34, a reverse operation is performed, so that, as shown by arrow D of
As a result, the engaging of the snap fit type between the engaging portion 102 of the main body casing side fixing bracket 96 and the engaging notch portion 126 of the coil side fixing bracket 116 is released.
Consequently, as shown by arrow C of
In addition, in
The centrifugal pump 10 of the invention composed like this is operated as follows.
First of all, the electric current is flowed through the coil 110 of the coil portion 104, so that the coil 110 is excited.
As a result, it affects on the rotor magnet 32 of the rotating blade member 12.
Consequently, the rotating blade member 12 can be rotated around the axial member 64, which is passed through the bearing portion 14.
As a result, the blade member 16 of the rotating blade member 12 is rotated.
Consequently, as shown by arrow B of
Moreover, the fluid passed through the notch portion 88 is introduced into the rotating accommodating space S2, which is formed by the blade casing 68 and the lower main body casing 48, through the vertical passage 94 of the upper bearing member 78.
Moreover, by the turning force of the blade member 16 of the rotating blade member 12, as shown by arrow E of
According to the centrifugal pump 10 of the invention composed like this, the joint portion between the upper main body casing 36 which composes the metallic main body casing 34, the lower main body casing 48, and the blade casing 68, can be fixed, for instance, by heating such as welding, soldering and adhesion.
As a result, they can be fixed on the state of sealing.
Moreover, the joint portion between the metallic suction side coupling member 42 and the main body casing 34, and the joint portion between the discharge side coupling member 46 and the main body casing 34 can be fixed, for instance, by heating such as welding, soldering and adhesion.
As a result, they can be fixed on the state of sealing.
That is, it has a structure that a jointing method with the air-tight and maintenance strength such as welding and soldering can be applied to these connecting portions.
Thus, they can be fixed by heating such as welding, soldering and adhesion.
Consequently, a high air-tight metal casing and the piping can be used, and it can be used for the fluid in which the resisting pressure and the air-tight are required.
Moreover, it has the blade casing 68, in which the interior space S1 formed by the upper main body casing 36 and the lower main body casing 48 is partitioned.
In addition, it has the blade casing 68, in which the fluid introducing passage 84 is formed on the upper portion and in which the rotating accommodating space S2 to accommodate the rotating blade member 12 is formed on lower portion.
Therefore, the path of the fluid can be easily formed.
In this case, it is preferable that the main body casing 34 comprises a metallic press molded article, and the suction side coupling member 42 and the discharge side coupling member 46 comprise the metal pipe.
As a result, a jointing method with the air-tight and maintenance strength such as welding and soldering can be applied to these connecting portions. Moreover, the cost can be reduced.
Moreover, the main body casing 34 and the coil portion 104 are detachably fixed by a detaching means.
Namely, in this Embodiment, they are fixed detachably by the main body casing side fixing bracket 96 and the coil side fixing bracket 116.
As a result, before fixing the coil portion 104 to the main body casing 34, for instance, heating fixation such as welding, soldering and adhesion and a processing which requires heating can be applied to the main body casing 34, so that working property is improved.
Moreover, because the main body casing 34 and the coil portion 104 are detachably fixed by the detaching means, the exchange when the coil portion 104 is broken down can be facilitated.
In addition, draw direction and coupling direction of wire (i.e. the suction side coupling member 42 and the discharge side coupling member 46) can be arbitrarily selected.
In this case, in this Embodiment, as for the detaching means, engaging between the main body casing side fixing bracket 96 and the coil side fixing bracket 116 is adopted.
That is, it comprises engaging between the engaging piece 124 of the coil side fixing bracket 116 and the engaging piece 100 of the main body casing side fixing bracket 96, and engaging between the engaging portion 102 of the main body casing side fixing bracket 96 and the engaging notch portion 126 of the coil side fixing bracket 116.
However, it is not limited in any way, and as for detaching means, for instance, other detaching means such as engaging by the screw engaging and by the convex or concave can be adopted.
In addition, the axial member 64 of the rotating blade member 12 is pivoted by the upper bearing member 78 and the lower bearing member 60.
Therefore, the bearing of the rotating blade member 12 is a stable structure so that an excellent centrifugal pump 10 in durability and silence can be provided.
That is, the rotation of the rotating blade member 12 is stable, the noise when rotating is reduced.
Moreover, the vibration of the rotating blade member 12 is reduced so that durability can be also improved.
In addition, the connecting passage (i.e. the notch portion 88 and the vertical passage 94), in which the fluid introducing passage 84 and the rotating accommodating space S2 are connected, is formed on the upper bearing member 78.
As a result, piping etc. is not needed separately and the passage can be easily formed.
Moreover, the axial member 64 of the rotating blade member 12 is fixed on the upper bearing member 78 and the lower bearing member 60, and the rotating blade member 12 is rotated around the outer periphery of the axial member 64.
Therefore, the rotation sliding area is increased between the rotating blade member 12 and the outer periphery of the axial member 64, and the contact surface pressure is reduced.
As a result, the rotation of the rotating blade member is stable, the noise when rotating is reduced.
Moreover, the vibration of the rotating blade member is reduced so that durability can be also improved.
In this case, the rotating part between the rotating blade member 12 and the axial member 64 (i.e. at least the inner periphery of the bearing portion 14 of the rotating blade member 12 and the outer periphery of the axial member 64) comprises synthetic resin having a high slidability.
Thus, the bearing portion 14 and the axial member 64 of rotating blade member 12 comprise synthetic resin having a high slidability.
Moreover, only the inner periphery of the bearing portion 14 of rotating blade member 12 and the surface of the outer periphery of the axial member 64 can be covered by synthetic resin having such a slidability.
In this case, as for a synthetic resin having a high slidability, it is not especially limited.
For instance, lubricant resins having chemical resistance such as PPS and PTFE can be used.
Like this, the synthetic resin having a high slidability is used to the rotating part.
As a result, in non-lubrication condition in which the bearing is in the fluid, sliding ability is excellent, the axial member 64 and the rotating blade member 12 will not be worn out and damaged by the rotation of the rotating blade member 12, so that loose and eccentricity are not caused in the rotating blade member 12, and the desired pump performance can be retained.
In this case, though not shown, it is possible to compose so that the axial member 64 is fixed to the rotating blade member 12, and the rotating blade member 12 may rotate between the upper bearing member 78 and the axial member 64 and between the lower bearing member 60 and the axial member 64.
By composing like this, the rotation of the rotating blade member 12 is stable, the noise when rotating is reduced.
Moreover, the vibration of the rotating blade member 12 is reduced so that durability can be also improved.
In addition, in this case similarly, the synthetic resin having a high slidability can be used to the rotating part between the upper bearing member 78 and axial member 64 and between the lower bearing member 60 and the axial member 64.
The centrifugal pump 10 of this Embodiment is basically similar composition of the centrifugal pump 10 shown in Embodiment 1 shown in
Like reference numeral is refer to the same composition member, and the detailed explanation is omitted.
In the centrifugal pump 10 of the Embodiment 1, the coil 110 is molded with the molding resin, so that the molding resin portion 114 is formed.
As a result, it is integrated, and the coil portion 104 is formed.
On the other hand, in the centrifugal pump 10 of this Embodiment, as shown in
Moreover, it is fixed by fitting an outer periphery 144 of a cover member 142 to a steps portion 140 formed on the top of a sidewall 138 of the coil casing 136.
In addition, the portion between the steps portion 140 and the cover member 142 of this coil casing 136, if required, is fixed, for instance, by heating such as welding, soldering, adhesion and press fit, etc.
By composing like this, the molding resin is omitted and cost can be reduced and lightening can be attempted.
Although preferable embodiment of the invention is described above, the invention is not limited to this embodiment.
For instance, in the Embodiment, as shown in
However, though not shown, the coil side fixing bracket 116 is integrated with the molding resin, so that it can be fixed to the coil portion 104.
In addition, in the Embodiment, the number of the suction side coupling member 42 and the discharge side coupling member 46 is assumed to be 1 piece respectively.
However, the number of suction side coupling member 42 and discharge side coupling member 46 can be plurality.
Therefore, various changes are possible in the scope in which it does not deviate from the object of the invention.
The invention can be applied to a centrifugal pump to supply a fluid, which is a cooling water of various machines such as a personal computer, a computer server, and a printer, and a cooling water such as internal combustion engine, and a refrigerant used for a refrigerant circulation circuit etc. of an air conditioning machine such as an air conditioner and a freezer.
Number | Date | Country | Kind |
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2013-010102 | Jan 2013 | JP | national |