CN208594584U - Deposit processing unit - Google Patents
Deposit processing unit Download PDFInfo
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- CN208594584U CN208594584U CN201821082559.3U CN201821082559U CN208594584U CN 208594584 U CN208594584 U CN 208594584U CN 201821082559 U CN201821082559 U CN 201821082559U CN 208594584 U CN208594584 U CN 208594584U
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- outer cylinder
- deposit
- processing unit
- screw rod
- deposit processing
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Abstract
The utility model discloses a kind of deposit processing units, belong to deposit processing technology field.The deposit processing unit includes outer cylinder, the end cap being tightly connected with outer cylinder, the bottom of outer cylinder is protruded into one end, the other end passes through end cap, and the screw rod being connect with end cap seal, the control mechanism connecting with one end outside outer cylinder exposed on screw rod, is along the circumferential direction fixedly connected on the helical element of screw rod side.In the utility model embodiment, which is fixed on to the bottom in pond by the bottom of outer cylinder, screw rod rotation is controlled by control mechanism later, and then drive helical element synchronous rotary.During helical element rotation, deposit in pond can be sucked outer cylinder along at least one suction inlet, and deposit is delivered to the height where outlet under the action of helical element, and then outer cylinder is flowed out along outlet, it realizes the processing to deposit in pond, reduces the workload of operator.
Description
Technical field
The utility model relates to deposit processing technology field, in particular to a kind of deposit processing unit.
Background technique
After prolonged use, the deposit of certain depth is inevitably precipitated in basin bottom in pond.Therefore, it is
The lasting use in pond after the precipitating by certain time needs to handle the deposit in pond.
Currently, can be by manually handling the deposit in pond, or by sludge pump to heavy in pond
Product object is handled.However, it is found by the inventors that not only increasing the work of operator when above by manually being handled
Amount, it is also possible to because of deposit, cause the generation of slip tumble injury phenomenon of the operator in pond.Above by sludge pump
When handling deposit, since the viscosity of deposit may be very big, cause the workload of sludge pump larger.In this way,
The shorter Shi Changhou of sludge pump work, it may occur however that the phenomenon that motor of sludge pump is burnt.Therefore, a kind of deposit processing dress is needed
It sets, to handle the deposit in pond, to reduce the workload of operator, while avoiding burning for motor.
Utility model content
The utility model provides a kind of deposit processing unit, can reduce behaviour when handling the deposit in pond
Make the workload of personnel, while avoiding the problem that motor is burnt.The technical solution is as follows:
The utility model provides a kind of deposit processing unit, and the deposit processing unit includes outer cylinder;
The side of the bottom of the outer cylinder is provided at least one suction inlet, and the side at the top of the outer cylinder is provided with row
Outlet, the bottom of the outer cylinder are used to be fixed with the bottom in pond;
The end cap being connect with the end face seal at the top of the outer cylinder;
The bottom of the outer cylinder is protruded into one end, and the other end passes through the end cap, and the screw rod connecting with the end cap seal;
The control mechanism connecting with one end outside the outer cylinder exposed on the screw rod, the control mechanism is for controlling
Make the screw rod rotation;
Along the circumferential direction it is fixedly connected on the helical element of the screw rod side, axis of the helical element along the screw rod
The outlet is extended to from least one described suction inlet.
In one possible implementation, the outer diameter of the helical element is equal to the internal diameter of the outer cylinder.
Optionally, the deposit processing unit further include: first be connected between the end cap and the screw rod is close
Seal bearing.
Optionally, fluted towards the setting of the side of the screw rod on the end face of the bottom of the outer cylinder, on the screw rod
It is fixed in the groove by the second sealing bearing positioned at one end of the outer barrel.
Optionally, at least one described suction inlet is uniformly distributed along the circumferencial direction of the outer cylinder, and it is described at least one
Each suction inlet in suction inlet is in up-small and down-big openning shape.
Optionally, each suction inlet is triangular in shape.
Optionally, the deposit processing unit further include: the water injecting mechanism being connected to the bottom of the outer cylinder, the note
Communicating position between water dispenser structure and the outer cylinder is located at the lower section of at least one suction inlet.
Optionally, the bottom of the outer cylinder is in a circular table shape.
Optionally, the deposit processing unit further includes the pedestal connecting with the bottom of the outer cylinder, and the pedestal is used
In the bottom that the outer cylinder is fixed on to the pond.
The beneficial effect of technical solution provided by the utility model includes at least:
It, will by the bottom of outer cylinder when needing to handle the deposit in pond in the utility model embodiment
The deposit processing unit is fixed on the bottom in pond, screw rod rotation is controlled by control mechanism later, in the mistake of screw rod rotation
Cheng Zhong drives helical element synchronous rotary.During helical element rotation, the pressure of the bottom of outer cylinder can be less than outer cylinder
The pressure at top, so as to which the deposit in pond is sucked outer cylinder along at least one suction inlet.Later, deposit is being centrifuged
Under the action of power, frictional force is produced with the inner wall of outer cylinder, which can prevent deposit from rotating with helical element
And the gravity of deposit decline is overcome, so that deposit be delivered to the height where outlet, and outer along outlet outflow
Cylinder realizes the processing to deposit in pond.In this way, the workload of operator is not only reduced, meanwhile, due also to screw rod
Revolving speed can be adjusted according to the viscosity of deposit, therefore can be with the workload of reducing controlling organization, so as to avoid control
Mechanism is burnt.
Detailed description of the invention
It, below will be to required in embodiment description in order to illustrate more clearly of the technical scheme in the embodiment of the utility model
Attached drawing to be used is briefly described, it should be apparent that, the accompanying drawings in the following description is only some realities of the utility model
Example is applied, it for those of ordinary skill in the art, without creative efforts, can also be according to these attached drawings
Obtain other attached drawings.
Fig. 1 is the schematic diagram of the section structure of the first deposit processing unit provided by the embodiment of the utility model;
Fig. 2 is the schematic diagram of the section structure of second of deposit processing unit provided by the embodiment of the utility model;
Fig. 3 is the schematic diagram of the section structure of the third deposit processing unit provided by the embodiment of the utility model.
Appended drawing reference:
1: outer cylinder;11: suction inlet;12: outlet;13: groove;2: end cap;3: screw rod;4: control mechanism;5: spire
Part;6: the first sealing bearings;7: the second sealing bearings;8: water injecting mechanism;9: pedestal.
Specific embodiment
It is practical new to this below in conjunction with attached drawing to keep the purpose of this utility model, technical solution and advantage clearer
Type embodiment is described in further detail.
Fig. 1 illustrates a kind of the schematic diagram of the section structure of deposit processing unit of the utility model embodiment.Such as attached drawing 1
Shown, deposit processing unit includes outer cylinder 1, and the side of the bottom of outer cylinder 1 is provided at least one suction inlet 11, outer cylinder 1
The side at top is provided with outlet 12, and the bottom of outer cylinder 1 is used to be fixed with the bottom in pond;With the top of outer cylinder 1
The end cap 2 of end face seal connection;The bottom of outer cylinder 1 is protruded into one end, and the other end passes through end cap 2, and the spiral shell being tightly connected with end cap 2
Bar 3;The control mechanism 4 connecting with one end outside outer cylinder 1 exposed on screw rod 3, control mechanism 4 is for controlling the rotation of screw rod 3;
It is along the circumferential direction fixedly connected on the helical element 5 of 3 side of screw rod, helical element 5 is along the axial from least one sucking of screw rod 3
Mouth 11 extends to outlet 12.
It, will by the bottom of outer cylinder 1 when needing to handle the deposit in pond in the utility model embodiment
The deposit processing unit is fixed on the bottom in pond, controls screw rod 3 by control mechanism 4 later and rotates, and then drives spiral
5 synchronous rotary of component.During helical element 5 rotates, the pressure of the bottom of outer cylinder 1 can be less than the pressure at the top of outer cylinder 1
Power, so as to which the deposit in pond is sucked outer cylinder 1 along at least one suction inlet 11.Later, deposit is in centrifugal force
Under effect, frictional force is produced with the inner wall of outer cylinder 1, which can prevent deposit from rotating simultaneously with helical element 5
The gravity of deposit decline is overcome, so that deposit be delivered to the height at 12 place of outlet by helical element 5, and edge
Outlet 12 flows out outer cylinder 1, realizes the processing to deposit in pond.In this way, not only reducing the workload of operator, together
When, due also to the revolving speed of screw rod 3 can be adjusted according to the viscosity of deposit, therefore can be negative with the work of reducing controlling organization 4
Lotus, so as to avoid burning for control mechanism 4.
Wherein, end cap 2 and the end face at the top of outer cylinder 1 can be connected and sealed by bolted connection, certainly,
The mode that can also be connected through a screw thread is connected and sealed, and the utility model embodiment does not limit this.Helical element 5 can
To refer to helical blade.
Since the viscosity of deposit may be larger, in order to avoid burning for control mechanism 4, control mechanism 4 drives screw rod 3 to revolve
The revolving speed turned is lower, at this point, the centrifugal force of deposit is smaller in outer cylinder 1, to cause between deposit and the inner wall of outer cylinder 1
Friction is small.In order to avoid the gravity that the frictional force between deposit and the inner wall of outer cylinder 1 cannot overcome deposit to decline, lead
It causes gap of the deposit between helical element 5 and the inner wall of outer cylinder 1 to leak, reduces the processing of the deposit processing unit
Efficiency, the outer diameter of helical element 5 can be equal to the internal diameter of outer cylinder 1, in this way, during helical element 5 rotates, in outer cylinder 1
Deposit be entirely located in the top of helical element 5, so as to avoid deposit between helical element 5 and the inner wall of outer cylinder 1
Gap leak, as long as at this point, the frictional force between deposit and the inner wall of outer cylinder 1 can prevent deposit with spire
Part 5 rotates together.Certainly, the outer diameter of helical element 5 also can be slightly less than the internal diameter of outer cylinder 1, as long as guaranteeing deposit not
Gap of the meeting between helical element 5 and the inner wall of outer cylinder 1 leaks, and the utility model embodiment does not limit this
It is fixed.
Wherein, at least one suction inlet 11 can be randomly dispersed in the bottom of outer cylinder 1, certainly, at least one suction inlet 11
It can also be uniformly distributed along the circumferencial direction of outer cylinder 1, in this manner it is ensured that the deposit processing unit is to all areas in pond
Deposit synchronize processing, avoid at least one suction inlet 11 sucking 11 region of suction inlet deposits.
In addition, promoting deposit under the action of helical element 5 when sucking deposit by least one suction inlet 11
Along the axial uphill process of screw rod 3, in order to avoid deposit sucks outer cylinder 1 from the lower part of suction inlet 11, from suction inlet 11
Outer cylinder 1 is discharged in top, and each suction inlet 11 at least one suction inlet 11 is in up-small and down-big openning shape.Due to each suction
Entrance 11 is in up-small and down-big openning shape, heavy greater than what is be discharged from top in the volume for the deposit that the lower part of suction inlet 11 sucks
The volume of product object, thereby may be ensured that normal sucking of at least one suction inlet 11 to deposit.
It should be noted that as shown in Fig. 2, each suction inlet 11 can be triangular in shape, and certainly, each suction inlet 11
Can also with trapezoidal etc., as long as each suction inlet 11 be in up-small and down-big openning shape, the utility model embodiment to this not
It limits.
In the utility model embodiment, when handling the deposit in pond, in order to avoid the viscosity of deposit
It is larger, cause deposit slower along the rate of climb of helical element 5, that is to say that the treatment effeciency of deposit is lower, such as 2 institute of attached drawing
Show, deposit processing unit can also include: the water injecting mechanism 8 being connected to the bottom of outer cylinder 1.In order to avoid in helical element 5
When rotation, the water that water injecting mechanism 8 is injected directly is sucked to and is delivered to height and the discharge at 12 place of outlet, water injecting mechanism 8
Communicating position between outer cylinder 1 can be located at the lower section of at least one suction inlet 11.
Based on above-mentioned setting, during helical element 5 rotates, stirring action can be generated to deposit, due to note
Communicating position between water dispenser structure 8 and outer cylinder 1 is located at the lower section of at least one suction inlet 11, that is to say what water injecting mechanism 8 was injected
Water level is in the lower section of deposit, in such manner, it is possible to guarantee that the water of the injection of water injecting mechanism 8 and deposit are sufficiently mixed.It is depositing
After object is mixed with injection water, the viscosity of deposit can reduce, thus the convenient processing to deposit in pond.
It should be noted that multiple connecting pipelines can be set between water injecting mechanism 8 and the bottom of outer cylinder 1, in this way, note
Water dispenser structure 8 can be filled the water to the entire bottom of outer cylinder 1, to guarantee between injection water and the deposit of water injecting mechanism 8
Mixing.
In the utility model embodiment, in order to guarantee leakproofness of the screw rod 3 while rotating between end cap 2, one
In the possible implementation of kind, as shown in Fig. 2, deposit processing unit further include: be connected between end cap 2 and screw rod 3
First sealing bearing 6.The inner wall of first sealing bearing 6 and the side of screw rod 3 are tightly connected, the outer wall and end cap 2 of first bearing
Be tightly connected, due to the first sealing bearing 6 inner and outer wall can relative rotation, it may therefore be assured that screw rod 3 and end cap 2
Can relative rotation, that is to say, screw rod 3 and outer cylinder 1 being capable of relative rotation.
Certainly, can also be connected by other sealing structures between end cap 2 and screw rod 3, if can guarantee screw rod 3,
While leakproofness between sealing structure and end cap 2, between screw rod 3 and end cap 2 can relative rotation, the utility model
Embodiment does not limit this.
Further, it is tightly connected due to screw rod 3 and end cap 2 or by the first sealing bearing 6 and end cap 2, in screw rod 3
The one end being located in outer cylinder 1 when rotation, on screw rod 3 is easy to shake, and then the deposit processing unit is caused integrally to be sent out
It is raw to shake.If the shaking that the deposit processing unit occurs is larger, it is easy to it collapses, and then accident occurs, therefore,
In order to avoid the shaking that screw rod 3 occurs when rotated, as shown in Fig. 2, towards the one of screw rod 3 on the end face of the bottom of outer cylinder 1
Side can be set fluted 13, and one end inside outer cylinder 1 is located on screw rod 3 and is fixed in groove 13 by the second sealing bearing 7.
The side wall of the outer wall and groove 13 of second sealing bearing 7 is sealedly and fixedly connected, the inner wall of the second sealing bearing 7 and the side of screw rod 3
Face is sealedly and fixedly connected, due to second sealing bearing 7 inner and outer wall can relative rotation, it may therefore be assured that screw rod 3 with
Groove 13 can relative rotation, that is to say, screw rod 3 and outer cylinder 1 being capable of relative rotation.In this way, by end cap 2 and groove 13 to spiral shell
The both ends of bar 3 are limited, so that screw rod 3 be avoided to shake during rotation, and then avoid deposit processing
The possibility that device collapses.
Certainly, can also be connected by other sealing structures between groove 13 and screw rod 3, if can guarantee screw rod 3,
While leakproofness between sealing structure and groove 13, between screw rod 3 and groove 13 can relative rotation, this is practical new
Type embodiment does not limit this.
In the utility model embodiment, which is fixed on to the bottom in pond in the bottom by outer cylinder 1
When portion, in order to guarantee the stability of the deposit processing unit, as shown in Fig. 3, deposit processing unit can also include with
The pedestal 9 of the bottom connection of outer cylinder 1, pedestal 9 are used to for outer cylinder 1 being fixed on the bottom in pond.
Wherein, it can be fixedly connected by welding between pedestal 9 and outer cylinder 1, it is of course also possible to by can
The connection type of disassembly realizes being fixedly connected between pedestal 9 and outer cylinder 1, and the utility model embodiment does not limit this.It needs
It is noted that the bottom due to pond is generally cement flooring, pedestal 9 can be fixed on to the bottom in pond in advance,
In this way, can be fixedly connected the bottom of outer cylinder 1 and pedestal 9 when needing to handle the deposit in pond,
When not needing to handle the deposit in pond, lower outer cylinder 1 can be dismantled, from pedestal 9 so as to avoid pedestal 9 and pool bottom
Frequent disassembly between portion.
In the utility model embodiment, as shown in Fig. 3, the bottom of outer cylinder 1 can be in a circular table shape.In this way, in spire
Part 5 rotate, by the deposit in pond along at least one suction inlet 11 suck outer cylinder 1 during, due to 1 bottom of outer cylinder
Space is greater than the space at 1 top of outer cylinder, and the pressure of 1 bottom of outer cylinder can be much smaller than the pressure at 1 top of outer cylinder, thus in outer cylinder 1
Bottom approximately forms subnormal ambient, thus guarantee it is larger to the suction of deposit during helical element 5 rotates so that heavy
Product object fills up the bottom space of outer cylinder 1.Correspondingly, the part of the bottom on helical element 5 positioned at outer cylinder 1 is also in a circular table shape, with
Guarantee that the gap between helical element 5 and the inner wall of outer cylinder 1 is smaller.
Certainly, the bottom of outer cylinder 1 can also be in other shapes, for example, the bottom of outer cylinder 1 can be in the shape of a trumpet, as long as
Guarantee that the space of the bottom of outer cylinder 1 is greater than the space at the top of outer cylinder 1, thus when helical element 5 rotates, it can be in outer cylinder 1
Bottom form approximate subnormal ambient, the utility model embodiment does not limit this.
In the utility model embodiment, when needing to handle the deposit in pond, by the bottom of outer cylinder and in advance
The pedestal for being first fixed on basin bottom is fixedly connected, so that the deposit processing unit to be fixed on to the bottom in pond.Later, lead to
Control mechanism control screw rod rotation is crossed, and then drives helical blade synchronous rotary, during helical blade rotation, is promoted outer
The cylinder biggish space in bottom forms approximate subnormal ambient, so that the deposit in pond be inhaled along at least one triangle suction inlet
Enter outer cylinder.Later, deposit under the influence of centrifugal force, produces frictional force with the inner wall of outer cylinder, which can prevent
Deposit rotates with helical blade and overcomes the gravity of deposit decline, to be conveyed deposit by helical blade
Outer cylinder is flowed out to the height where outlet, and along outlet, realizes the processing to deposit in pond.In this way, not only reducing
The workload of operator, meanwhile, due also to the revolving speed of screw rod can be adjusted according to the viscosity of deposit, therefore can drop
The workload of low control mechanism, so as to avoid burning for control mechanism.
The foregoing is merely the illustrative embodimentss of the utility model, are not intended to limit the utility model, all in this reality
Within novel spirit and principle, any modification, equivalent replacement, improvement and so on should be included in the utility model
Within protection scope.
Claims (9)
1. a kind of deposit processing unit, which is characterized in that the deposit processing unit includes outer cylinder (1);
The side of the bottom of the outer cylinder (1) is provided at least one suction inlet (11), and the side at the top of the outer cylinder (1) is set
It is equipped with outlet (12), the bottom of the outer cylinder (1) is used to be fixed with the bottom in pond;
The end cap (2) being connect with the end face seal at the top of the outer cylinder (1);
The bottom of the outer cylinder (1) is protruded into one end, and the other end passes through the end cap (2), and be tightly connected with the end cap (2)
Screw rod (3);
The control mechanism (4) being connect with one end external in the outer cylinder (1) exposed on the screw rod (3), the control mechanism
(4) for controlling the screw rod (3) rotation;
It is along the circumferential direction fixedly connected on the helical element (5) of the screw rod (3) side, the helical element (5) is along the spiral shell
The axial of bar (3) extends to the outlet (12) from least one described suction inlet (11).
2. deposit processing unit as described in claim 1, which is characterized in that the outer diameter of the helical element (5) is equal to institute
State the internal diameter of outer cylinder (1).
3. deposit processing unit as described in claim 1, which is characterized in that the deposit processing unit further include: even
Connect the first sealing bearing (6) between the end cap (2) and the screw rod (3).
4. deposit processing unit as claimed in claim 1 or 3, which is characterized in that on the end face of the bottom of the outer cylinder (1)
Fluted (13) are set towards the side of the screw rod (3), it is logical that the outer cylinder (1) internal one end is located on the screw rod (3)
The second sealing bearing (7) is crossed to be fixed in the groove (13).
5. deposit processing unit as described in claim 1, which is characterized in that at least one described suction inlet (11) is along described
The circumferencial direction of outer cylinder (1) is uniformly distributed, and each suction inlet (11) at least one described suction inlet (11) present it is small
Big openning shape down.
6. deposit processing unit as claimed in claim 5, which is characterized in that each suction inlet (11) is triangular in shape.
7. deposit processing unit as described in claim 1, which is characterized in that the deposit processing unit further include: with
The water injecting mechanism (8) of the bottom connection of the outer cylinder (1), the communicating position between the water injecting mechanism (8) and the outer cylinder (1)
Positioned at the lower section of at least one suction inlet (11).
8. deposit processing unit as described in claim 1, which is characterized in that the bottom of the outer cylinder (1) is in a circular table shape.
9. deposit processing unit as described in claim 1, which is characterized in that the deposit processing unit further includes and institute
The pedestal (9) of the bottom connection of outer cylinder (1) is stated, the pedestal (9) is used to for the outer cylinder (1) being fixed on the bottom in the pond
Portion.
Priority Applications (1)
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CN201821082559.3U CN208594584U (en) | 2018-07-09 | 2018-07-09 | Deposit processing unit |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821082559.3U CN208594584U (en) | 2018-07-09 | 2018-07-09 | Deposit processing unit |
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CN208594584U true CN208594584U (en) | 2019-03-12 |
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CN201821082559.3U Active CN208594584U (en) | 2018-07-09 | 2018-07-09 | Deposit processing unit |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111206553A (en) * | 2020-03-10 | 2020-05-29 | 宁波市庞荣机械科技有限公司 | Cleaning device of farmland irrigation ditch |
-
2018
- 2018-07-09 CN CN201821082559.3U patent/CN208594584U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111206553A (en) * | 2020-03-10 | 2020-05-29 | 宁波市庞荣机械科技有限公司 | Cleaning device of farmland irrigation ditch |
CN111206553B (en) * | 2020-03-10 | 2020-12-01 | 傅文静 | Cleaning device of farmland irrigation ditch |
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