CN202096792U - Stirring and defoaming device and container for same - Google Patents

Abstract

The utility model provides a container capable of improving stirring and defoaming performance and a stirring and defoaming device in the field of rotation-revolution stirring and defoaming devices. The container (100) is kept on a container support (30) and used for stirring and defoaming materials (M) contained inside the container by means of revolution and rotation at the same time; the inner surface (110) of the container comprises a cylindrical lateral surface (120) and a bottom (130) extending from the lower end of the lateral surface; the bottom comprises a central area (140), a deepest area (150), a first inclined area (160) and a second inclined area (170); the first inclined area (160) is connected with the deepest area and the lateral surface; the second inclined area is connected with the deepest area and the central area; and the first inclined area and the second inclined area form a curve extending along a circle (C1) in a section split from a plane including a central line (120L) of the lateral surface.

Description

Employed container of churning deaerator and churning deaerator

Technical field

The utility model relates to employed container of churning deaerator and churning deaerator.

Background technology

Known have through making accommodate container of material while the rotation of revolving round the sun, thereby in container, material stirred the device churning deaerator of formula (rotation revolution) (for example with reference to patent documentation 1) of deaeration.In this churning deaerator, while through making the container rotation of revolving round the sun, utilize centrifugal force on the material that acts in the container can stirring material (mixing, mix, disperse) and discharge the bubble in material 1, thereby deaeration.

Then, in the field of the churning deaerator of rotation revolution formula,, attempt the shape (with reference to patent documentation 2 and patent documentation 3) of adjustment container in order to handle material equably.

Patent documentation 1: japanese kokai publication hei 10-43568 communique

Patent documentation 2: TOHKEMY 2001-353405 communique

Patent documentation 3: TOHKEMY 2007-151468 communique

In the field of the churning deaerator of rotation revolution formula, think that when the stir process of material if material is easy in container, move, then the stir process efficient of material uprises.For this point, in patent documentation 2, disclose the technology that forms convex shape outstanding in container at the central portion of the bottom of container, thus, " reduce viscous flow, thereby obtain uniform admixture " (with reference to the 0008th paragraph) at the container central portion.In addition, the central portion that in Fig. 7 of patent documentation 3, discloses the bottom surface is to protrude spherical shape, around it, is formed with the container of toroidal bend portion, thus, " makes the processing object thing be easy to move (with reference to the 0038th paragraph).

Yet,,, the uneven danger of stirring that in this zone, produces material is arranged if in the mobile zone that dies down that the part of the bottom of container produces material even container shapes becomes the shape that makes material be easy to move.

The utility model content

The purpose of a scheme of the utility model is, is provided in the field of churning deaerator of rotation revolution formula to improve container and the churning deaerator that stirs the deaeration performance.

(1) the utility model scheme provides a kind of container; It is that the center revolution is on the pan straddle of center rotation with the rotation axis that intersects obliquely with above-mentioned revolution axis on one side that this container remains on one side revolution axis with regulation; Be contained in inner material through stirring deaeration while the rotation of revolving round the sun; Said vesse has the inner surface that is used to divide the inner space that holds above-mentioned material; Above-mentioned inner surface comprises columned side surface part and the bottom of extending from the lower end of above-mentioned side surface part, and above-mentioned bottom comprises: when depression angle is observed, be positioned at the central middle section of above-mentioned side surface part; The darkest zone of extending with the mode of surrounding above-mentioned middle section when depression angle is observed; First tilting zone that connects above-mentioned zone the most deeply and above-mentioned side surface part; And second tilting zone that connects above-mentioned zone the most deeply and above-mentioned middle section; In the section of cutting open with the plane of the center line that comprises above-mentioned side surface part, above-mentioned first tilting zone and above-mentioned second tilting zone constitute along on through above-mentioned lower end and the normal that extends from above-mentioned lower end, with the half the length of the diameter of above-mentioned side surface part, being the curve that the circle of diameter extends with center configuration.

According to this embodiment, can be provided at the container of deposition that material M is stirred the composition of the inhomogeneous or material M of the stirring that is difficult for producing material M when deaeration is handled.

(2) in this container, above-mentioned second tilting zone also can be to be connected in above-mentioned middle section smoothly.

(3) in this container, above-mentioned middle section also can be the shape that becomes more little to the top diameter more.

(4) in this container, above-mentioned middle section forms tabular surface.

(5) in this container, above-mentioned first tilting zone and above-mentioned second tilting zone and the darkest above-mentioned zone become the curve that extends along above-mentioned circle in above-mentioned section.

(6) other the embodiment of the utility model provides a kind of churning deaerator, comprising: be that the center revolution is the pan straddle of center rotation with the rotation axis that intersects obliquely with above-mentioned revolution axis on one side with the revolution axis of regulation on one side; Container, this container have the inner surface of dividing the inner space be used to hold material, remain on the said vesse support and with the said vesse support and move integratedly; And be used to make the driving mechanism of said vesse support while the rotation of revolving round the sun; The above-mentioned inner surface of said vesse comprises columned side surface part, the bottom of extending from the lower end of above-mentioned side surface part, and above-mentioned bottom comprises: when depression angle is observed, be positioned at the central middle section of above-mentioned side surface part; The darkest zone of extending with the mode of surrounding above-mentioned middle section when depression angle is observed; First tilting zone that connects above-mentioned zone the most deeply and above-mentioned side surface part; And second tilting zone that connects above-mentioned zone the most deeply and above-mentioned middle section; In the section of cutting open with the plane of the center line that comprises above-mentioned side surface part, above-mentioned first tilting zone and above-mentioned second tilting zone become along on through above-mentioned lower end and the normal that extends from above-mentioned lower end, with the half the length of the diameter of above-mentioned side surface part, being the curve that the circle of diameter extends with center configuration.

According to this embodiment, material M is being stirred deaeration when handling, can be difficult for producing the deposition of the composition of the inhomogeneous or material M of the stirring of material M.

Description of drawings

Fig. 1 is the figure of structure that is used to explain the churning deaerator of this embodiment.

Fig. 2 is the figure of structure that is used to explain the churning deaerator of this embodiment.

Fig. 3 (A)～Fig. 3 (C) is the figure of structure that is used to explain the container of this embodiment, and Fig. 3 (A) is the side view of container, and Fig. 3 (B) is the mB-IIIB line cutaway view of Fig. 3 (A), and Fig. 3 (C) is the IIIC-IIIC line cutaway view of Fig. 3 (A).

Fig. 4 (A) and Fig. 4 (B) are the figure of structure that is used to explain the container of this embodiment, and Fig. 4 (A) is the part enlarged drawing of the container side that remains on the state on the pan straddle, and Fig. 4 (B) is the IVB-IVB line cutaway view of Fig. 4 (A).。

Fig. 5 is the figure that is used to explain the stirring defoaming method of this embodiment.

Fig. 6 (A) and Fig. 6 (B) are the figure of structure that is used to explain the container of variation.

Fig. 7 is the figure of structure that is used to explain the container of variation.

Fig. 8 is the figure of structure that is used to explain the container of variation.

Fig. 9 (A) and Fig. 9 (B) are the figure of structure that is used to explain the container of variation.

Wherein:

The 1-churning deaerator, 10-housing, 12-supporting substrate, 14-holding member, 20-rotary body, 22-rotating shaft, 30-pan straddle; The 32-axis of rotation, the 34-bearing, the 36-lug boss, the 38-counterweight, the 42-motor, 46-rotation belt wheel, 48-rotation power is added belt wheel; 50-autorotation force transfer mechanism, the 52-first relaying belt wheel, the 54-second relaying belt wheel, 56-first belt, 58-second belt, 60-control module, 62-CPU; The 64-drive control part, 66-turn-sensitive device, 68-operating portion, 69-display part, 100-container, 110-inner surface, 120-side surface part; The 120L-center line, 130-bottom, 140-middle section, the darkest zone of 150-, 160-first tilting zone, 170-second tilting zone, 182-recess; The 190-lid, 192-inner cap, 194-enclosing cover, 200-storage container, 210-inner surface, 220-side surface part, 220L-center line; The 222-side surface part, 222L-center line, 224-side surface part, 224L-center line, 230-bottom, 240-middle section, 242-middle section; The darkest zone of 250-, 260-first tilting zone, 262-first tilting zone, 264-first tilting zone, 270-second tilting zone, 272-second tilting zone; 274-second tilting zone, 300-connector, A-inner space, L1-rotation, L2-rotation axis, M-material.

The specific embodiment

Below, with reference to accompanying drawing the employed embodiment of the utility model is described.But the utility model is not limited to following embodiment.That is, the utility model is not that to be confined to must be whole structure of in following embodiment, explaining.In addition, the utility model comprises the structure with following content independent assortment.

(1) structure of churning deaerator 1

Below, with reference to Fig. 1 and Fig. 2 the structure of the churning deaerator 1 of this embodiment is described.

(a) housing 10

As shown in Figure 1, churning deaerator 1 has housing 10.The supporting substrate 12 of stating various mechanisms after being used to support is installed via antirattle spring in housing 10 inside.In addition, at the holding member 14 of the rotating shaft 22 that the rotary body of stating after being used to keep 20 is installed on the supporting substrate 12.Housing 10 has and constitutes the door that can open and close, if opening this Men Ze exposes pan straddle 30, and can handling cask 100 on pan straddle 30.

(b) rotary body 20

As shown in Figure 1, churning deaerator 1 comprises rotary body 20.Rotary body 20 constitutes and can rotate with respect to supporting substrate 12 (housing 10).Particularly, in churning deaerator 1, rotating shaft 22 is fixed on the rotary body 20, and rotating shaft 22 remains on the holding member 14 via bearing.Thus, can make rotary body 20 with respect to supporting substrate 12 rotations.In addition, in churning deaerator 1, the rotation L1 of rotary body 20 is consistent with the bearing of trend of rotating shaft 22.

(c) pan straddle 30

As shown in Figure 1, churning deaerator 1 comprises pan straddle 30.Pan straddle 30 plays the effect of the container of stating after the maintenance 100.Pan straddle 30 remains on the position apart from rotation L1 predetermined distance of rotary body 20.Thus, pan straddle 30 is to revolve round the sun in the center along with the rotation of rotary body 20 with rotation L1.

Pan straddle 30 is being held with respect to the mode of rotary body 20 rotations (rotation).Particularly, in churning deaerator 1, on pan straddle 30, be fixed with the axis of rotation 32, the axis of rotation 32 constitutes via bearing 34 and remains on rotary body 20 (being fixed on the bearing maintaining part on the rotary body 20).Thus, pan straddle 30 can be with respect to rotary body 20 rotations.

In addition, in this embodiment, pan straddle 30 constitutes its rotation axis L2 and intersects obliquely with rotation L1 (revolution axis).Particularly, churning deaerator 1 constitutes rotation axis L2 and the rotation L1 angular cross with 45 degree.But the angle of the crossing of rotation L1 and rotation axis L2 also not only is confined to 45 degree, but character that can compounding ingredient M is suitably set.

In this embodiment, pan straddle 30 becomes the structure (with reference to Fig. 4 (B)) that three lug bosses 36 are installed in the upper end, utilizes lug boss 36 can prevent that container 100 is in the idle running of the inside of pan straddle 30.But pan straddle 30 also can be the structure (not shown) with lug boss 36.

In this embodiment, a pan straddle 30 only is installed on rotary body 20.But this is equipped with counterweight 38 on rotary body 20 in embodiment.Utilize counterweight 38 that rotary body 20 is stably rotated.In addition, in this embodiment, counterweight 38 constitutes the distance that can change apart from rotation L1.But,, churning deaerator is constituted at a rotary body 20 a plurality of pan straddles 30 (not shown) are installed as variation.In this case, a plurality of pan straddles can be mounted to the point-symmetric configuration that rotation L1 is the center.

(d) driving mechanism

Churning deaerator 1 comprises makes the driving mechanism of pan straddle 30 (container 100) while the rotation of revolving round the sun.Below, the structure of driving mechanism is described.

Driving mechanism has motor 42.Motor 42 plays the effect that makes rotary body 20 (rotating shaft 22) rotation.In this embodiment, if rotary body 20 rotations, then pan straddle 30 (container 100) revolution.Therefore, can motor 42 be called the revolution driving mechanism that is used to make pan straddle 30 (container 100) revolution.In addition, motor 42 can utilize asynchronous motor, servo motor or PM motor etc. to be known any one motor.

Driving mechanism also has rotation power additional mechanism providing additional operation.In this embodiment, rotation power additional mechanism providing additional operation constitutes revolution (along with the rotation of rotary body 20) along with pan straddle 30 to the structure of the additional rotation power of pan straddle 30.Below, rotation power additional mechanism providing additional operation is described.

Rotation power additional mechanism providing additional operation has rotation belt wheel 46.Rotation belt wheel 46 is fixed on the pan straddle 30, and moves integratedly with pan straddle 30.In addition, in this embodiment, rotation belt wheel 46 is arranged on the periphery of pan straddle 30.In addition, rotation power additional mechanism providing additional operation has the additional belt wheel 48 of rotation power.The additional belt wheel 48 of rotation power is fixed on the periphery of holding member 14.And rotation power additional mechanism providing additional operation has the autorotation force transfer mechanism 50 of transferring power between rotation belt wheel 46 and the additional belt wheel 48 of rotation power.In this embodiment, autorotation force transfer mechanism 50 comprises: constituting can be with respect to the first relaying belt wheel 52 and the second relaying belt wheel 54 of rotary body 20 rotations; Be wound on first belt 56 on the rotation belt wheel 46 and the first relaying belt wheel 52; Be wound on second belt 58 on the additional belt wheel 48 of rotation power and the second relaying belt wheel 54.

Utilize rotation power additional mechanism providing additional operation, make the motion of rotation belt wheel 46 and the movements of the additional belt wheel 48 of rotation power through autorotation force transfer mechanism 50, rotation belt wheel 46 shows as the motion identical with planetary gears with the additional belt wheel 48 of rotation power.And in this embodiment, because the additional belt wheel 48 of rotation power is fixedly on the holding member 14, if make rotary body 20 rotations, then rotation belt wheel 46 is that revolution one side, center is the center rotation with rotation axis L2 with rotation L1 on one side.That is, in churning deaerator 1, if make rotary body 20 rotation with motor 42, the rotation while rotation belt wheel 46 revolves round the sun, thus while make the pan straddle 30 that is fixed on the rotation belt wheel 46 rotation of revolving round the sun.

In addition, as variation, driving mechanism constitutes and makes the additional belt wheel 48 of rotation power can be with respect to holding member 14 rotations, also possesses to be used to make the guiding mechanism (not shown) of the additional belt wheel 48 of rotation power with the rotating speed rotation of expectation.As before the explanation, in driving mechanism, autorotation force transfer mechanism 50 plays the rotating speed that makes rotation belt wheel 46 and rotation power and adds the effect that the rotating speed of belt wheel 48 is associated.Therefore, through making the also rotating speed of (make rotary body 20 rotations and) additional belt wheel 48 of control rotation power of rotation belt wheel 46 revolution, can control the rotational velocity of rotation belt wheel 46.In addition, this guiding mechanism can be realized for known any one mechanism with for example motor or brake etc.

In addition,,, replace belt wheel and belt, also can utilize gear (not shown) as the transmission of power key element as other variation.

(e) control module 60

Churning deaerator 1 comprises control module as shown in Figure 2 60.Control module 60 plays the effect of the action of blanket control churning deaerator 1.Below, control module 60 is described.Fig. 2 is used for figure that control module 60 is described.

Control module 60 comprises microprocessor (CPU62) and the drive control part 64 of controlling revolution driving mechanism (motor 42).And, through make CPU62 according to service data (for example, the treatment conditions of user's compounding ingredient M and the data imported) to the various signals of drive control part 64 outputs, the action of control churning deaerator 1 (being used to drive the rotary drive mechanism of pan straddle 30).

As stated, in churning deaerator 1, owing to pan straddle 30 along with the rotation of rotary body 20 is revolved round the sun, can control the revolution speed of pan straddle 30 through the output of control motor 42.That is,, can make the revolution speed revolution of pan straddle 30 with expectation through the output of control motor 42.

For example adopting under the situation of asynchronous motor as motor 42, the action of drive control part 64 control frequency converters, it can utilize the frequency that is used to make the alternating electromotive force that offers motor 42 to realize for the Frequency Converter Control portion of setting.Perhaps, adopting under the situation of servo motor as motor 42, drive control part 64 is realized through special driver and hardware, is used to the various processing that motor 42 is moved with the rotating speed of expecting.In addition, drive control part 64 also can constitute to be obtained by the rotary speed information of turn-sensitive device 66 detected pan straddles 30 (for example, be situated between and obtained by CPU62), and is used to control the various processing of the rotating speed of rotary body 20 according to this rotary speed information.

Then, CPU62 carries out the processing to the drive control part 64 various signals of transmission (the rotating speed of target data of pan straddle 30 etc.) in the moment of stipulating.Thus, can make the rotating speed rotation of pan straddle 30 with expectation.

In addition, in this embodiment, CPU62 constitutes the rotary speed information (rotary speed information of pan straddle 30) that can obtain rotary body 20 via turn-sensitive device 66.And CPU62 also can carry out this rotary speed information is associated with the elapsed time and is stored to the processing of not shown storage part.In addition, the CPU62 rotary speed information that also can constitute according to rotary body 20 carries out calculation process to the rotational velocity information of pan straddle 30.That is, in churning deaerator 1,, if the rotating speed of clear and definite rotary body 20, then can calculate the rotational velocity of pan straddle 30 according to the sized data of each key element of Poewr transmission mechanism because the additional belt wheel 48 of rotation power constitutes and can not rotate.

CPU62 also receives from the action data of operating portion 68 input, and is stored to the processing of not shown storage part, and makes display part 69 show the processing of information in each (from the action data of operating portion 68 inputs and the operational situation of churning deaerator 1).

(2) container 100

Next, with reference to Fig. 3 (A)～Fig. 4 (B) container 100 that can be applicable to this embodiment is described.At this, Fig. 3 (A) is the side view of container 100, and Fig. 3 (B) is the IIIB-IIIB line cutaway view of Fig. 3 (A), and Fig. 3 (C) is the IIIC-IIIC line cutaway view of Fig. 3 (A).In addition, Fig. 4 (A) is the part enlarged drawing of container 100 side that remains on the state on the pan straddle 30, and Fig. 4 (B) is the IVB-IVB line cutaway view of Fig. 4 (A).In addition, while container 100 plays the effect that inner material M stirs deaeration that is contained in that makes through the rotation of revolving round the sun.

Shown in Fig. 3 (B), container 100 has inner surface 110.Inner surface 110 is faces of dividing the inner space A be used to hold material M.And material M remains in the A of inner space and with inner surface 110 (part wherein) and contacts.

Shown in Fig. 3 (B) and Fig. 3 (C), inner surface 110 has side surface part 120.Side surface part 120 is columned zone, is configured in the zone of the upside of inner surface 110.Side surface part 120 can be described as in the section of cutting open with the plane that comprises its center line 120L the zone (with reference to Fig. 3 (B)) that shape linearly extends.

Shown in Fig. 3 (B) and Fig. 3 (C), inner surface 110 has bottom 130.Extend bottom 130 lower end of portion 120 from the side.In addition, bottom 130 is configured in the inboard of side surface part 120 when depression angle is observed.Below, bottom 130 is described.

Shown in Fig. 3 (B) and Fig. 3 (C), bottom 130 has middle section 140.Middle section 140 is the zones that are positioned at the central authorities of side surface part 120.In this embodiment, middle section 140 constitutes more and becomes more little to the top diameter.In addition, in this embodiment, middle section 140 with after second tilting zone 170 stated be connected smoothly.

Shown in Fig. 3 (B) and Fig. 3 (C), bottom 130 has the darkest zone 150.Shown in Fig. 3 (B), the darkest zone 150 is zones minimum in inner surface 110.The darkest zone 150 is the zones of extending with the mode of encirclement middle section 140 when depression angle is observed.

Shown in Fig. 3 (B) and Fig. 3 (C), bottom 130 has first tilting zone 160 and second territory 170 of inclining.First tilting zone 160 is the zones that connect the darkest zone 150 and side surface part 120.In addition, second tilting zone 170 is the zones that connect the middle section 140 of the darkest zone 150 and bottom 130.

In this embodiment, shown in Fig. 3 (B), in the section of cutting open with the plane that comprises center line 120L, first tilting zone 160 and second tilting zone 170 are the shape of extending along circle C1.In addition, in this embodiment, circle C1 is at the circle that passes through on side surface part 120 lower ends and the normal in this lower end with center configuration.That is, circle C1 is with the circle of side surface part 120 as tangent line, and thus, side surface part 120 is connected with first tilting zone 160 smoothly.In addition, in this embodiment, circle C1 is that the half the length with the diameter of side surface part 120 is the circle of diameter.Therefore, the darkest zone 150 is configured in the zone line of side surface part 120 and center line 120L.

Shown in Fig. 3 (A) and Fig. 3 (C), container 100 has anti-free-wheeling mechanism.Anti-free-wheeling mechanism plays the effect that prevents that container 100 from dallying in pan straddle 30.That is, through anti-free-wheeling mechanism, container 100 can be kept by pan straddle 30, and moves integratedly with pan straddle 30.In this embodiment, anti-free-wheeling mechanism is realized by on the periphery of container 100, having the recess of installing the compartment of terrain 182.Promptly in this embodiment, chimeric through making recess 182 shown in Fig. 4 (A) and Fig. 4 (B) with the lug boss 36 of pan straddle 30, can prevent that container 100 from dallying in pan straddle 30.

(c) other

Shown in Fig. 3 (A) and Fig. 3 (B), container 100 constitutes can install lid 190.Lid 190 stops up the upper end of inner surfaces 110 (side surface part 120), plays the material M space A effect of overflowing internally that prevents.In this embodiment, lid 190 comprises inner cap 192 and enclosing cover 194.

(3) material M

The material M that can be applicable to this embodiment is that the material as fluid motion gets final product, and it is formed and the not special qualification of purposes.As material M, can use the material that only contains fluid composition (resin etc.) or outside fluid composition, also comprise material of granular composition (powdery composition) etc.Material M for example can use: composite material, the solder paste of bonding agent, sealant, liquid crystal material, the fluorophor that comprises LED and resin, the resin material that is used for the curable of compression moulding, dental impression silica material, dental cement (spackling etc.), aqueous various materials such as medicament.In addition, in container 100, also can hold the pulverizing that is used to pulverize granular (powdery) material with medium (for example zirconia ball) with material M.

(4) stir defoaming method

Next, with reference to Fig. 5 the stirring defoaming method of the material M of this embodiment is described.At this, Fig. 5 is used to explain the flow chart that stirs defoaming method.

As shown in Figure 5, the stirring defoaming method of this embodiment comprises: the container 100 that will accommodate material M remains on the operation (step S110) of pan straddle 30, running churning deaerator 1 and makes the operation (step S120) of pan straddle 30 (container 100) revolution and rotation.Thus, can in container 100, stir deaeration material M.

(5) action effect

Below, the container 100 of this embodiment and the action effect of churning deaerator 1 are described.

As stated, container 100 constitutes first tilting zone 160 and second tilting zone 170 becomes in the section of cutting open with the plane that comprises center line 120L along the shape of circle C1.Utilize this structure; Even the centre in bottom 130 is provided with under the situation of lug boss (middle section 140 and second tilting zone 170); Also can make bottom 130 become level and smooth face; And, can make the curvature of bottom 130 (first tilting zone 160 and second tilting zones 170) become enough little.Therefore, through utilizing container 100,, can prevent to produce the situation that material rests on the central authorities of bottom 130 material M being stirred deaeration when handling, and, material M successfully 130 is moved along the bottom.That is, utilize container 100 on bottom 130, to be difficult for producing the mobile zone that dies down that makes material M.Thus, through utilizing container 100, in the deposition of the composition (particle composition) that material M is stirred the inhomogeneous or material M of the stirring that is difficult for making material M when deaeration is handled.

In addition, container 100 is for connect the shape of side surface part 120 and bottom 130 (first tilting zone 160) smoothly.Therefore, the boundary in side surface part 120 and bottom 130 can make material M successfully move, and is inhomogeneous with the stirring of the difficult generation of the boundary material M of bottom 130 in side surface part 120.

In addition, container 100 is for connect the shape of the middle section 140 and second tilting zone 160 smoothly.Therefore, at the boundary of the middle section 140 and second tilting zone 160 material M is successfully moved, the stirring that is difficult for generation material M at the boundary of middle section 140 and second tilting zone 160 is inhomogeneous.

In addition, container 100 for middle section 140 more upwards diameter become more little shape.Therefore, can dwindle the area of the front end of middle section 140, be difficult for producing material M (particularly particle composition) to this front end deposition.

(6) variation

Next, the variation to this embodiment describes.

Below, with reference to Fig. 6 (A) and Fig. 6 (B) container 200 as the variation of this embodiment is described.

Shown in Fig. 6 (A), container 200 has inner surface 210.Inner surface 210 is faces of dividing the inner space be used to hold material M.And material M remains in the inner space and with inner surface 210 (a wherein part) and contacts.

Shown in Fig. 6 (A), inner surface 210 has side surface part 220.Side surface part 220 is columned zone.Shown in Fig. 6 (A), side surface part 220 is taper.In detail, side surface part 220 constitutes has the cylindric of gradient, and the diameter of side surface part 220 is more to the below of side surface part 220 become narrow more (with reference to Fig. 6 (A)).That is, side surface part 220 its normals are with respect to the horizontal plane towards the top.

Shown in Fig. 6 (A), inner surface 210 has bottom 230.The bottom 230 comprises: middle section 240, the darkest zone 250, connect the darkest zone 250 and side surface part 220 first tilting zone 260, is connected the darkest regional 250 and second tilting zone 270 of middle section 240.In this embodiment, the darkest zone 250 is configured in the zone line of side surface part 220 and its center line 220L.And in this embodiment, first tilting zone 260 and second tilting zone 270 are the shape of extending along circle C2.At this, circle C2 is with the circumference of center configuration on lower end through side surface part 220 and the normal that extends from this lower end.In addition, the diameter of justifying C2 is shorter slightly than half of the diameter of side surface part 220.

Then, shown in Fig. 6 (B), container 200 constitutes via connector 300 and is kept by pan straddle.

Container 200 becomes above-mentioned structure; According to this structure; Even the central authorities in bottom 230 are provided with under the situation of lug boss (middle section 240 and second tilting zone 270); Also can make the integral body of bottom 230 become level and smooth face, and can make the curvature of bottom 230 (first tilting zone 260 and second tilting zones 270) become enough little.Therefore, through utilizing container 200, material M is being stirred deaeration when handling, be difficult for producing the deposition of the composition (particle composition) of the inhomogeneous or material M of the stirring of material M.

In addition; If the diameter of circle C2 reaches about 90 percent (being preferably about 95 percent) of half the length of the diameter of side surface part 220; Then the darkest zone 250 can be configured in the zone line of side surface part 220 and center line 220L, thereby can bring into play above-mentioned effect fully.

In addition, as shown in Figure 7 on the contrary, first tilting zone 262 and second tilting zone 272 are become, the shape of in the section of cutting open with the plane of the center line that comprises side surface part, extending along circle C3.At this, the diameter of circle C3 is longer slightly than the half the length of the diameter of side surface part.If the diameter of circle C3 reaches one of percentage about 110 (being preferably one of percentage about 105) of half length of the diameter of side surface part, then can bring into play above-mentioned effect fully.

And then, as shown in Figure 8 as other variation, can make first tilting zone 264 and second tilting zone 274 shape in the section of cutting open with the plane of the center line 222L that comprises side surface part 222, extending along circle C4.At this, circle C4 is the circle that joins with side surface part 222 and center line 222L.Under the situation of this structure, material M is being stirred deaeration when handling, also be difficult for producing the deposition of the composition (particle composition) of the inhomogeneous or material M of the stirring of material M.

Perhaps, shown in Fig. 9 (A), Fig. 9 (B), also can container be formed and make middle section 242 depart from the structure of the center line 224L of side surface part 224.Under the situation of this structure, material M is being stirred deaeration when handling, also be difficult for producing the deposition of the composition (particle composition) of the inhomogeneous or material M of the stirring of material M.

Claims (10)

1. container; Its revolution axis that remains on one side with regulation is that the center revolution is on the pan straddle of center rotation with the rotation axis that intersects obliquely with above-mentioned revolution axis on one side; Through stirring deaeration to being contained in inner material while the rotation of revolving round the sun; Said vesse is characterised in that

Have the inner surface of dividing the inner space be used to hold above-mentioned material,

Above-mentioned inner surface comprise columned side all with the bottom of extending from the lower end of above-mentioned side surface part,

Above-mentioned bottom comprises:

When depression angle is observed, be positioned at the middle section of above-mentioned side surface part central authorities;

When depression angle is observed, the darkest zone of extending with the mode of surrounding above-mentioned middle section;

First tilting zone that connects above-mentioned zone the most deeply and above-mentioned side surface part; And

Second tilting zone that connects above-mentioned zone the most deeply and above-mentioned middle section,

In the section of cutting open with the plane of the center line that comprises above-mentioned side surface part, above-mentioned first tilting zone and above-mentioned second tilting zone constitute along on through above-mentioned lower end and the normal that extends from above-mentioned lower end, with the half the length of the diameter of above-mentioned side surface part, being the curve that the circle of diameter extends with center configuration.

2. container as claimed in claim 1 is characterized in that, above-mentioned second tilting zone constitutes with above-mentioned middle section and is connected smoothly.

3. container as claimed in claim 1 is characterized in that,

Above-mentioned middle section is the shape that becomes more little to the top diameter more.

4. container as claimed in claim 1 is characterized in that,

Above-mentioned middle section forms tabular surface.

5. container as claimed in claim 1 is characterized in that,

Above-mentioned first tilting zone and above-mentioned second tilting zone and the darkest above-mentioned zone become the curve that extends along above-mentioned circle in above-mentioned section.

6. a churning deaerator is characterized in that,

Comprise:

Be that the center revolution is the pan straddle of center rotation with the rotation axis that intersects obliquely with above-mentioned revolution axis on one side on one side with the revolution axis of regulation;

Container, this container have the inner surface of dividing the inner space be used to hold material, remain on the said vesse support and with the said vesse support and move integratedly; And

Be used to make the driving mechanism of said vesse support while the rotation of revolving round the sun,

The above-mentioned inner face of said vesse comprises columned side surface part and the bottom of extending from the lower end of above-mentioned side surface part,

Above-mentioned bottom comprises:

When depression angle is observed, be positioned at the middle section of above-mentioned side surface part central authorities;

When depression angle is observed, the darkest zone of extending with the mode of surrounding above-mentioned middle section;

First tilting zone that connects above-mentioned zone the most deeply and above-mentioned side surface part; And

Second tilting zone that connects above-mentioned zone the most deeply and above-mentioned middle section,

In the section of cutting open with the plane of the center line that comprises above-mentioned side surface part, above-mentioned first tilting zone and above-mentioned second tilting zone become along on through above-mentioned lower end and the normal that extends from above-mentioned lower end, with the half the length of the diameter of above-mentioned side surface part, being the curve that the circle of diameter extends with center configuration.

7. churning deaerator as claimed in claim 6 is characterized in that,

Above-mentioned second tilting zone constitutes with above-mentioned middle section and is connected smoothly.

8. churning deaerator as claimed in claim 6 is characterized in that,

Above-mentioned middle section is the shape that becomes more little to the top diameter more.

9. churning deaerator as claimed in claim 6 is characterized in that,

Above-mentioned middle section forms tabular surface.

10. churning deaerator as claimed in claim 6 is characterized in that,

Above-mentioned first tilting zone and above-mentioned second tilting zone and the darkest above-mentioned zone become the curve that extends along above-mentioned circle in above-mentioned section.

Images