CN206430566U - Liquation delivery pump and liquation induction system - Google Patents
Liquation delivery pump and liquation induction system Download PDFInfo
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- CN206430566U CN206430566U CN201621197399.8U CN201621197399U CN206430566U CN 206430566 U CN206430566 U CN 206430566U CN 201621197399 U CN201621197399 U CN 201621197399U CN 206430566 U CN206430566 U CN 206430566U
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- liquation
- cylinder
- delivery pump
- conveyor screw
- permanent magnet
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Abstract
The utility model provides the delivery of molten metal pump and induction system that simple in construction, running management is easy and operation cost is low.A kind of liquation delivery pump, is sucked and the conductive metal liquation that spues, it is characterised in that including:Cylinder, is made up of cylindric side wall, with open lower side and upper side opening;Conveyor screw, is contained in cylinder with stationary state;Magnetic field device, it is arranged on the periphery of cylinder, cylinder has sidewall opening, conveyor screw has helical form plate, pass through the periphery ora terminalis and the inner face of cylinder of helical form plate, the inside of cylinder is divided to a helical flow path for being formed as moving towards along helical form, helical flow path connects open lower side and sidewall opening, magnetic field device has permanent magnet, the inner circumferential side of permanent magnet is magnetized to a pole, outer circumferential side is magnetized to another pole, and the intensity of magnetization of permanent magnet is set as that magnetic field reaches the intensity of the inside of cylinder.
Description
Technical field
The utility model is related to the delivery pump of conveying conductive metal liquation and has used the liquation of the liquation delivery pump defeated
Send system.
Background technology
As the delivery pump of the conductive metal liquation such as copper, aluminium, there is mechanical pump, electromagnetic pump and vavuum pump etc. in the past.This
A little pumps have following difficult point, and these difficult points are not solved yet so far.
I.e., although above-mentioned mechanical pump is most popular type, but the damage of rotating vane is serious, thus must suitably more
Change.However, the replacing is expend a great deal of time.It must for a long time be stopped operation certainly during replacing, stop what is causing by operation
Loss is very big.In addition, rotating vane is expensive in itself, not only original cost is very high, and with change operation into
This is also very high.
The system of above-mentioned electromagnetic pump is had to complexity because of cooling coil, and in order to obtain necessary magnetic force, it is necessary to quite
The coil of large volume, it is impossible to avoid maximization.Additionally, there are power consumption is big, operation cost becomes big, it is necessary at large sets up anti-
The running management of the strategy that only liquation is blocked etc. becomes very numerous and diverse and complicated etc. difficult point.
The problem of above-mentioned vavuum pump in the running sucks liquation in vavuum pump room is more, it is difficult to running management.
That is, these conventional pumps, which exist, needs complicated maintenance, spends the difficulties such as substantial amounts of operation cost, running management complexity
Point.
In view of such difficult point, many users expect that the simple in construction, running management of appearance is easy and operation cost is low
Liquation delivery pump.
Utility model content
Pump of the present utility model is liquation delivery pump, and the liquation delivery pump is sucked and the conductive metal liquation that spues, and it is special
Levy and be, including:
Cylinder, is made up of cylindric side wall, open lower side as suction inlet and the upside of upper end with lower end
Opening;
Conveyor screw, is contained in the cylinder with stationary state;
Magnetic field device, is arranged on the periphery of the cylinder,
The cylinder has the sidewall opening as the opening that spues in the sidewall opening,
The conveyor screw has helical form plate, by the inner face of the periphery ora terminalis and the cylinder of the helical form plate,
The inside of the cylinder is divided to a helical flow path for being formed as moving towards along helical form, the helical flow path connects
Lead to the open lower side and the sidewall opening,
The magnetic field device have permanent magnet, the inner circumferential side of the permanent magnet be geomagnetic into N poles and S extremely in a pole,
Outer circumferential side is geomagnetic into another pole, and the intensity of magnetization of the permanent magnet is set as that magnetic field reaches the strong of the inside of the cylinder
Degree,
In this way, formed with from periphery towards the center of the cylinder the transverse magnetic line of force magnetic field, or, shape
Into with from the center of the cylinder radially towards periphery the magnetic line of force magnetic field, in the liquation in the cylinder
In the case of flowing longitudinally through electric current, with the current cross and producing electromagnetic force by Lorentz force, by the electromagnetic force, make described molten
While liquid rotates in the helical flow path, melted from described in the open lower side towards the sidewall opening rotation driving
Liquid.
The liquation induction system of embodiment of the present utility model, has:Above-mentioned liquation delivery pump, keep liquation the
One holding furnace and the second holding furnace for keeping liquation, first holding furnace are connected to the suction of the liquation delivery pump
Mouthful, second holding furnace is connected to the discharge opening of the liquation delivery pump.
Brief description of the drawings
Fig. 1 is the overall structure figure for the liquation induction system entirety for being shown as embodiment of the present utility model.
Fig. 2 is the vertical profile explanation figure for showing the liquation delivery pump in Fig. 1.
Fig. 3 is the released state explanation figure of the released state of the structure member for the liquation delivery pump for showing Fig. 2.
Fig. 4 is the cross section explanatory diagram along Fig. 2 IV-IV lines interception.
Fig. 5 corresponds to the cross section explanatory diagram of Fig. 4 modified example.
Fig. 6 corresponds to the cross section explanatory diagram of Fig. 4 modified example.
Fig. 7 corresponds to the cross section explanatory diagram of Fig. 5 modified example.
Fig. 8 is the top view of Fig. 2 conveyor screw lower end supporting plate.
Fig. 9 is the operating instruction figure for illustrating the electromagnetic force by the Lorentz force generation of liquation delivery pump.
Figure 10 is the explanation figure of Fig. 9 operation.
Figure 11 is the overall structure figure for showing that the liquation induction system of different embodiments is overall.
Figure 12 is the vertical profile explanation figure for the liquation delivery pump for showing Figure 11.
Embodiment
It was found from Fig. 1 is waited, embodiment of the present utility model is embodied as conveying the pump installation 3 of conductive metal liquation
With the liquation induction system 100 for having used the pump installation.Above-mentioned conductive metal liquation is nonferrous metal (for example, aluminium, copper, zinc
Or silicon or at least both alloys or magnesium alloy etc. in these) iron beyond liquation etc. nonferrous metal beyond metal
Liquation.
From fig. 1, it can be seen that above-mentioned pump installation 3 from underlying downside holding furnace 1 by liquation M for example for being promoted to position
Upside holding furnace 2 in top.
Simply illustrated in principle, above-mentioned pump installation 3 is basis by the magnetic field from permanent magnet and flows through electric conductivity
The electromagnetic force produced by electric current formed Lorentz force in molten metal carrys out the device of feed drive conductive metal liquation.By
The device operated thus according to such principle (by the magnetic field of permanent magnet and the electric current formed Lorentz force for flowing through it),
Therefore, running management is also extremely easy compared with conventional device, and consumption electric current can become significantly compared with conventional electromagnetic pump
It is few, additionally it is possible to suppress operation cost, and then due to suppressing spontaneous heating using permanent magnet, and due to being that mechanical moving parts are not deposited
Structure, therefore, it is possible to being simple in construction and the resistance to firm device in long-term use.Further, it is of the present utility model to implement
Mode be not only configured to component parts because high temperature solution is lost when change the part of loss, and can easily more
Change.Thus, the so-called maintenance used also becomes extremely easy.
More specifically, embodiment of the present utility model is described as follows.
From fig. 1, it can be seen that the upper and lower ends of above-mentioned pump installation 3 are connected to holding furnace 1,2.That is, the lower end of pump installation 3
Arrival end (suction inlet) IN is connected via the connecting tube 5 of entrance side with holding furnace 1 with connected state, and the port of export of upper end (spues
Mouthful) OUT is connected via the connecting tube 6 of outlet side with holding furnace 2 with connected state.Above-mentioned arrival end IN and above-mentioned port of export OUT
Then it is described in detail, is internally connected by forming a spiral helicine flow path P inside body (housing) 8.
Flow path P is the stream divided by the inner face of body 8 with the spiral helicine fin 9a for the conveyor screw 9 for being contained in body 8
Dynamic path.
In Fig. 1 liquation induction system 100, in order to which the liquation M in above-mentioned flow path P flows longitudinally through electric current, if
It is set in the liquation M1 that first electrode 32A is immersed in holding furnace 1, second electrode 32 is immersed in the shape in the M2 in holding furnace 2
State.Positive and negative terminals 33a, 33b that these electrodes 32A, 32 are respectively connecting to supply unit 33.First electrode 32A, second electrode
32 position be not limited to it is above-mentioned, as long as being conducted respectively with liquation M1, liquation M2.
Above-mentioned supply unit 33 at least can be played a role as continuous-current plant, and embodiment of the present utility model is used
The multifunctional power supply device played a role as continuous-current plant and ac power supply apparatus.That is, at least filled as dc source
Put and play a role, and allow hand over the polarity of positive and negative output terminal.Moreover, can be used as low frequency (for example, 0 to 10Hz
Degree, preferably 0 to 5Hz degree) ac power supply apparatus play a role.It is configured to regulation output voltage and output electricity
Stream.In addition, from cost aspect, can also use unifunctional continuous-current plant.
Fig. 1 shows a case that supply unit 33 plays a role as continuous-current plant, and terminal 33a is plus end, end
Sub- 33b is negative terminal.As before, above-mentioned plus end 33a is connected to above-mentioned first electrode 32A, and negative terminal 33b is connected to
Two electrodes 32.Thus, the electric current i from supply unit 33 leaves terminal 33a, passes through the liquation M1 in holding furnace 1, pump installation 3
Liquation M2 in interior liquation, holding furnace 2, is back to terminal 33b.At this moment, electric current i is in (the flow path of body 8 shown in Fig. 2
P longitudinal flow upward from below in the liquation in).
In addition, such as from foregoing content it will also be appreciated that, it is negative that supply unit 33, which allows hand over terminal 33a, and terminal 33b is
Just.In this case, electric current i is contrary to the above, in the liquation in the body 8 (flow path P) shown in Fig. 2 from above towards
Flowing underneath.
Further, in the case where supply unit 33 plays a role as low-frequency AC power, electric current i shows in Fig. 2
Flowed in the liquation in body 8 (flow path P) gone out in the way of vibrating alternatively up and down.
Reference picture 2 and Fig. 3 illustrate the details of above-mentioned pump installation 3.Fig. 2 be decide what is right and what is wrong pump installation 3 a part and the portion that shows
Divide vertical profile explanation figure of deciding what is right and what is wrong, Fig. 3 shows the released state of component parts.As can be seen from Figure 2, pump installation 3 has:L-type is hollow
Body (housing) 8, conveyor screw 9, conveyor screw lower end supporting plate 10, lid (conveyor screw upper end supporting plate) 11, magnetic field device 12.These
Part is made up of refractory material respectively., can because therefore the chemical composition of refractory material it is well known that do not explain
Using silica (SiO2), zirconium oxide (ZrO2), the versatile material of carborundum etc..
Particularly as can be seen from Figure 3, body 8 has:Electromagnetic force F main vertical portals pipe portion (cylinder is bestowed to liquation M
Body) 8a and secondary outlet duct portion 8b bending to the right in figure.Here, inlet duct portion 8a and outlet duct portion 8b is by identical
Material is integrally formed, is the material of high intensity.Inlet duct portion (cylinder) 8a is made up of cylindric side wall, and its lower end is
So-called open lower side UDO (IN), upper end is so-called upper side opening UPO, and side wall has sidewall opening SIO.In addition, as be described hereinafter
Equally, only by removing cylinder 8a lid 11, conveyor screw 9 can be very easily loaded and unloaded, inside can be also easily performed
Cleaning, the replacing with new conveyor screw 9.
Further, as before, arrival end (open lower side) IN of above-mentioned inlet duct portion 8a lower end and entrance side
Above-mentioned connecting tube 5 is connected as connected state via above-mentioned conveyor screw supporting plate 10.The outlet of above-mentioned outlet duct portion 8b outlet side
The above-mentioned connecting tube 6 of end (discharge opening) OUT and outlet side is connected as connected state.
In the above-mentioned tubular body 8 (inlet duct portion 8a), above-mentioned conveyor screw 9 non-rotary state and it is detachable in the state of with
Stationary state is received.That is, when accommodating, as can be seen from Figure 2, conveyor screw 9 is under down through above-mentioned lid 11 and above-mentioned conveyor screw
End supporting plate 10 is clamped, not rotate and the no motion of mode of above-below direction is supported with stationary state.That is, above-mentioned conveyor screw
9 are contained in the inside of above-mentioned tubular body 8 with state fixed on above-below direction and direction of rotation.
The top view of above-mentioned conveyor screw lower end supporting plate 10 is shown in Fig. 8.As it can be observed in the picture that conveyor screw lower end supporting plate
10, by wearing multiple open communication 10a in plectane, are configured to circular peripheral part 10b, by the 10b of peripheral part
The supporting part 10c that relative two parts of edge are connected.Supporting part 10b can set multiple.Particularly as can be seen from Figure 2, spiral shell is passed through
The above-mentioned open communication 10a of body lower end supporting plate 10 is revolved, the connecting tube 5 of above-mentioned entrance side and the arrival end IN of above-mentioned tubular body 8 connect
It is logical.As it can be observed in the picture that in the about central of above-mentioned supporting part 10c surface (inner surface), being arranged with from below with stationary state
The aftermentioned axle portion 9a of support helix body 9 supported hole 10d.
For example as can be seen from Figure 3, above-mentioned conveyor screw 9 has:Columned axle portion 9a, spiral helicine one piece of fin (spiral
Shape plate) 9b.Above-mentioned fin 9b is configured in axle portion 9a periphery in the way of ridge shape rotates.Above-mentioned conveyor screw 9 can be from
Originally it is integrally constituted, can be also made up of additional fin 9b to axle portion 9a afterwards.In figure 3, the fin of conveyor screw 9
Shape portion 9b is formed as so-called left hand thread shape, but can also be formed as right-handed thread shape.Be formed as the situation of right-handed thread shape
When, in order to drive liquation M in the same direction, electric current i direction is oppositely flowed through (from the direction of top downward).
Although also being underdrawed before, as can be seen from Figure 2, pass through fin 9b most peripheral end face and above-mentioned inlet tube
Portion 8a inner face divides to form a spiral helicine above-mentioned flow path P.As can be seen from Figure 2, flow path P is used as entrance side
Lower end is connected with above-mentioned arrival end IN, is connected as the upper end of outlet side with above-mentioned port of export OUT.
As above-mentioned conveyor screw 9, the conveyor screw of polytype various structures can be prepared in advance.That is, prepare in advance and change
Polytype conveyor screw 9 of fin 9b pitch is become.Determine which kind of conveyor screw 9 used according to the specification of device, purposes.
According to its, each purposes is replaceable uses.During using the small conveyor screw of pitch, liquation M longitudinal velocity is slack-off, big using pitch
Conveyor screw when, the longitudinal velocity of liquation accelerates.
As shown in Figure 2, the external periphery around above-mentioned tubular body 8 of above-mentioned magnetic field device 12.Magnetic field device 12 is with can
Installed relative to the mode that above-mentioned tubular body 8 is adjusted in the vertical direction by arbitrary mode.Thus, move in the vertical direction
Magnetic field generation device 31, can select more efficient liquation M activation point.Furthermore it is possible in permanent magnet less by temperature shadow
Loud low position configuration magnetic field generation device 31.These optimum positions are for example under the same conditions by observing liquation M drive
Kinetic force can be speculated.
From Fig. 2 it will also be appreciated that, magnetic field device 12 is the permanent magnet device 12a that same ring-type is accommodated in the shell 12b of ring-type
Device.In shell 12b desired locations, the hole (air introducing port, outlet) of air cooling can be set.In addition, especially
It is that cross section from the IV-IV lines along above-mentioned magnetic field device 12 illustrates that Fig. 4 of figure understands that permanent magnet device 12a has:Ring
The ring-type yoke 12a21 of the permanent magnet body 12a1 of shape, the inner peripheral surface for surrounding permanent magnet body and outer peripheral face ferromagnetism material,
12a22.From Fig. 4 it will also be appreciated that, permanent magnet body 12a1 is so-called ring-type, and inner circumferential side is magnetized into N poles, outer circumferential side magnetic respectively
Turn to S poles.Moreover, as shown in figure 5, inner circumferential side in contrast, can be magnetized to S poles, outer circumferential side is magnetized to by the direction of magnetization respectively
N poles.Conversely carry out it is magnetized in the case of, in order to lift liquation M in flow path P, change electric current i direction.
In addition, in Fig. 4, Fig. 5, although permanent magnet device 12a is integrally constituted the endless means of formula, can from Fig. 6, Fig. 7
Know, can also be configured to the device formed by multiple permanent magnet pieces 12aa.In this case, above-mentioned yoke 12a21,12a22 is made
For the ferromagnetism yoke that multiple permanent magnet pieces 12aa magnetic are connected is played a role.
Pump installation 3 described above and liquation induction system 100 are for example assembled in the following manner.Simply, assembling sequence
In addition to following explanation, various orders can be used according to field conditions etc..
I.e., particularly as can be seen from Figure 3, the flange part 8a1 of the inlet duct portion 8a of body 8 lower end and the above-mentioned company of entrance side
Above-mentioned conveyor screw supporting plate 10 is clamped and is connected as connected state by the flange part 5a of adapter 5, also, the outlet duct portion of body 8
The flange part 8b1 of 8b front end and the flange part 6a of the connecting tube 6 of outlet side are connected as connected state.
In above-mentioned inlet duct portion 8a, above-mentioned magnetic field generation device 31 is installed as outer configuration state in any order.Afterwards, will
Conveyor screw 9 is inserted in inlet duct portion 8a from top (upper side opening UPO), and the lower end of conveyor screw passes through above-mentioned conveyor screw lower end branch
Fagging 10 is supported.Afterwards, above-mentioned lid 11 is attached to inlet duct portion 8a.It is particularly as can be seen from Figure 3, recessed in the inner face of lid 11
Have the supported hole 11a axle portion 9a of conveyor screw 9 top accommodated for stationary state.Thus, above-mentioned conveyor screw 9 passes through the He of lid 11
The support of conveyor screw supporting plate 10 is stationary state.
In addition, dismounting is able to carry out by order contrary to the above., as needed, can be by conveyor screw 9 by dismounting
It is replaced by the new conveyor screw or other types of new conveyor screw of same type.It is being replaced by other types of conveyor screw situation
Under, the liquation M rate of climb can be changed into required speed.However, because above-mentioned dismounting can only pass through above-mentioned lid 11
Remove execution, therefore, it is possible to extremely easily perform maintenance.In addition, connecting tube 5 and the company of outlet side by separate inlet opening side
Adapter 6, can also carry out pump installation 3 replacing of itself.Certainly, the replacing of conveyor screw lower end supporting plate 10 can also be carried out.
Then, to driving liquation M to illustrate by the pump installation 3 of embodiment of the present utility model.
The electric current i of supply unit 33 from Fig. 1, particularly as can be seen from Figure 2, in inlet duct portion 8a (flow path P)
Liquation in flow longitudinally through from the top down.Magnetic line of force ML from magnetic field device 12, particularly as can be seen from Figure 9, from periphery direction
Center position.Above-mentioned electric current i and above-mentioned magnetic line of force ML intersects and produces electromagnetic force F by Lorentz force.Electromagnetic force F is in whole periphery
Be formed as the electromagnetic force of dextrorotation in Fig. 9.Therefore, electromagnetic force F is synthesized, by composite force RF, and liquation dextrorsely revolves in fig .9
Turn.That is, liquation dextrorotation in above-mentioned flow path P rotates.Thus, as can be seen from Figure 2, fin of the liquation along above-mentioned conveyor screw 9
9b upward inclined-plane, is surround and is risen in the elevated mode of spiral step.Shown in Figure 10 principles on while liquation rotates
The situation risen.Then outlet duct portion 8b is reached from inlet duct portion 8a upper end side, then flows into stove via the connecting tube 6 of outlet side
Body 2.At this moment, by changing above-mentioned electric current i intensity, driving liquation M ability, i.e. conveying in the unit interval can be adjusted
Amount.In this case power consumption is few compared with the power consumption of the electromagnet of conventional device.
In addition, as magnetic field device 12, in the situation using Fig. 5 device, by what is flowed out from above-mentioned supply unit 33
The sense of current is reverse.
In addition, in the system of fig. 1, when flowing through low-frequency alternating current from supply unit 33, in (the entrance of pump installation 3
Pipe portion 8a) in, with short cycle switching the direction that will rotate to liquation, there is provided vibration.Removed by the vibration in liquation
The foreign body in portion, realizes the raising of liquation quality.That is, it can also carry out being promoted to the stove of top after the quality of liquation is improved
The application method of body 2.In addition, can also carry out various application methods.For example, the liquation in the furnace body 2 of top can be drawn
Pump installation 3 and improving quality are directed at, return again to afterwards to furnace body 2 etc..
Figure 11, Figure 12 show the different examples of embodiment of the present utility model.In this example, pump installation 3A is not
Isostructural device.That is, in the embodiment illustrated before, housing 8 is the tube shape of L-type, and Fig. 9, Figure 10 embodiment party
Formula is the structure easy to manufacture that housing 18 is straight tubular.With this accompany, upper part be with end portion identical structure,
And it is connected with the above-mentioned connecting tube 6 of outlet side.That is, Fig. 8 conveyor screw supporting plate 10 in its supported hole 10d downward
In the state of be clamped between the connecting tube 6 of outlet side in the state of use.Because other structures are substantially identical, therefore omit
Describe in detail.Equally in this embodiment, the replacing of conveyor screw 9, conveyor screw supporting plate 10 etc. can be carried out.In addition, in figure, 5A
It is the identical connecting tube of connecting tube 5 with entrance side.
In addition, in the embodiment of described above, body 8 (inlet duct portion 8a) is the state stood vertically, but is differed
Need to be vertical calmly, can also be arranged to inclined state.
Claims (17)
1. a kind of liquation delivery pump, the liquation delivery pump suck and the conductive metal that spues liquation, it is characterised in that have:
Cylinder, is made up of, the open lower side and the upper side opening of upper end as suction inlet with lower end cylindric side wall;
Conveyor screw, is contained in the cylinder with stationary state;
Magnetic field device, is arranged on the periphery of the cylinder,
The cylinder has the sidewall opening as the opening that spues in the sidewall opening,
The conveyor screw has helical form plate, by the inner face of the periphery ora terminalis and the cylinder of the helical form plate, by institute
The inside for stating cylinder divides a helical flow path for being formed as moving towards along helical form, and the helical flow path connects institute
Open lower side and the sidewall opening are stated,
The magnetic field device have permanent magnet, the inner circumferential side of the permanent magnet be geomagnetic into N poles and S extremely in a pole, periphery
Side is geomagnetic into another pole, and the intensity of magnetization of the permanent magnet is set as that magnetic field reaches the intensity of the inside of the cylinder,
In this way, formed with from periphery towards the center of the cylinder the transverse magnetic line of force magnetic field, or formed tool
Have from the center of the cylinder radially towards periphery the magnetic line of force magnetic field, longitudinal direction in the liquation in the cylinder
In the case of flowing through electric current, with the current cross and producing electromagnetic force by Lorentz force, by the electromagnetic force, the liquation is set to exist
While rotation in the helical flow path, from liquation described in the open lower side towards the sidewall opening rotation driving.
2. liquation delivery pump according to claim 1, it is characterised in that the conveyor screw, which has, installs the helical form plate
Axle portion, the axle portion the open lower side and it is described on be supported with stationary state between side opening, and the spiral shell
Body is revolved so that removably mode is received from the upper side opening relative to the cylindrical body.
3. liquation delivery pump according to claim 1, it is characterised in that the permanent magnet is by an annular permanent magnet structure
Into.
4. liquation delivery pump according to claim 2, it is characterised in that the permanent magnet is by an annular permanent magnet structure
Into.
5. liquation delivery pump according to claim 1, it is characterised in that the permanent magnet has multiple permanent magnet pieces, leads to
Cross and these permanent magnet pieces are configured to circle-shaped and constituted.
6. liquation delivery pump according to claim 2, it is characterised in that the permanent magnet has multiple permanent magnet pieces, leads to
Cross and these permanent magnet pieces are configured to circle-shaped and constituted.
7. liquation delivery pump according to any one of claim 1 to 6, it is characterised in that have as the conveyor screw
Polytype conveyor screw, any one of each conveyor screw can be contained in the cylinder, and each conveyor screw is constituted
To be different from the pitch of the helical form plate.
8. liquation delivery pump according to any one of claim 1 to 6, it is characterised in that have as the conveyor screw
At least two conveyor screws, any one of each conveyor screw can be contained in the cylinder, in described two conveyor screws
The helical form plate of one conveyor screw is configured to right-handed thread shape, and another is configured to left hand thread shape.
9. liquation delivery pump according to any one of claim 1 to 6, it is characterised in that the liquation delivery pump has
The conveyor screw lower end supporting plate installed in the open lower side of the cylinder, conveyor screw lower end supporting plate support is described
The lower end of conveyor screw and it is configured to have by the open communication of the inside of the cylinder and ft connection.
10. liquation delivery pump according to any one of claim 1 to 6, it is characterised in that the liquation delivery pump includes
First electrode and second electrode for flowing longitudinally through electric current in the liquation in the cylinder.
11. liquation delivery pump according to claim 10, it is characterised in that the liquation delivery pump, which has, connects described the
The supply unit of one electrode and the second electrode.
12. liquation delivery pump according to claim 11, it is characterised in that the supply unit is continuous-current plant.
13. liquation delivery pump according to claim 11, it is characterised in that the supply unit is ac power supply apparatus.
14. liquation delivery pump according to any one of claim 1 to 6, it is characterised in that the liquation delivery pump also has
Have the cylinder it is described on the lid installed of side opening, pass through the lid and supporting plate support in the conveyor screw lower end fixed
The conveyor screw.
15. liquation delivery pump according to any one of claim 1 to 6, it is characterised in that the multiple permanent magnet pieces lead to
Cross the connection of yoke magnetic.
16. a kind of liquation induction system, it is characterised in that have:Liquation according to any one of claim 1 to 15 is defeated
Pump is sent, the first holding furnace of liquation is kept and keeps the second holding furnace of liquation, first holding furnace is coupled indirectly to institute
The open lower side of liquation delivery pump is stated, second holding furnace is coupled indirectly to the side wall of the liquation delivery pump
Opening.
17. liquation induction system according to claim 16, it is characterised in that the first electrode is arranged on and is contained in
The position that the liquation of first holding furnace can be turned on, the second electrode is arranged on and is contained in second holding furnace
The position that liquation can be turned on.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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JP2015-217805 | 2015-11-05 | ||
JP2015217805 | 2015-11-05 |
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CN206430566U true CN206430566U (en) | 2017-08-22 |
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ID=59589470
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CN201621197399.8U Expired - Fee Related CN206430566U (en) | 2015-11-05 | 2016-11-04 | Liquation delivery pump and liquation induction system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107024118A (en) * | 2015-11-05 | 2017-08-08 | 高桥谦三 | Liquation delivery pump and liquation induction system |
CN108194306A (en) * | 2017-12-29 | 2018-06-22 | 胡芳丽 | A kind of direct-current electromagnetic pump |
-
2016
- 2016-11-04 CN CN201621197399.8U patent/CN206430566U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107024118A (en) * | 2015-11-05 | 2017-08-08 | 高桥谦三 | Liquation delivery pump and liquation induction system |
CN108194306A (en) * | 2017-12-29 | 2018-06-22 | 胡芳丽 | A kind of direct-current electromagnetic pump |
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