CN208233306U - Hydraulic suction dredge buoyancy tank - Google Patents
Hydraulic suction dredge buoyancy tank Download PDFInfo
- Publication number
- CN208233306U CN208233306U CN201820655123.2U CN201820655123U CN208233306U CN 208233306 U CN208233306 U CN 208233306U CN 201820655123 U CN201820655123 U CN 201820655123U CN 208233306 U CN208233306 U CN 208233306U
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- CN
- China
- Prior art keywords
- guide
- buoyancy tank
- end bearing
- drive
- gear
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
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- Other Liquid Machine Or Engine Such As Wave Power Use (AREA)
Abstract
The utility model relates to a kind of hydraulic suction dredge buoyancy tanks, including buoyancy tank ontology, the front and rear ends of buoyancy tank ontology are arranged with driving mechanism and guiding mechanism, length direction ring along buoyancy tank ontology is equipped with crawler belt, the driving mechanism and guiding mechanism is placed in the annular of crawler belt, the driving mechanism includes the be placed in motor base and drive end bearing support of buoyancy tank ontology front end two sides, is disposed with drive shaft between motor base and drive end bearing support.
Description
Technical field
The utility model relates to technical field of ship allocation, are related to hydraulic suction dredge, and in particular to a kind of hydraulic suction dredge buoyancy tank.
Background technique
Hydraulic suction dredge is the ship that a kind of mud by river bottom or lakebed or seabed is drawn onto spoil hopper.For waters coastal, along the lake
Dredging and reclamation is used.
It is main using form that hydraulic suction dredge buoyancy tank is that amphibious or soft ground surface works machinery is got off, and which increase mechanical
Buoyancy and contact area can effectively solve engineering machinery the shallow water and the operation of marsh region the problem of.
Existing hydraulic suction dredge buoyancy tank generallys use stationary structure, although this structure machine assembly is relatively simple,
Processing, maintenance are more troublesome.And the driving of existing hydraulic suction dredge buoyancy tank, guiding mechanism be due to the often operation under the environment of land and water,
Reliability and service life must effectively improve.
Summary of the invention
The utility model aim is to provide a kind of hydraulic suction dredge buoyancy tank, easy to process, easy to maintenance, highly reliable, use the longevity
Life length.
In order to achieve the goal above, the technical solution adopted in the utility model are as follows: a kind of hydraulic suction dredge buoyancy tank, including buoyancy tank sheet
The front and rear ends of body, buoyancy tank ontology are arranged with driving mechanism and guiding mechanism, and the length direction ring along buoyancy tank ontology is equipped with shoe
Band, the driving mechanism and guiding mechanism are placed in the annular of crawler belt, and the driving mechanism includes the buoyancy tank ontology that is placed in
The motor base and drive end bearing support of front end two sides, are disposed with drive shaft between motor base and drive end bearing support, described
Drive shaft one end be placed on the hydraulic motor of motor base, the other end is placed in the bearing of drive end bearing support, driving
Driving gear is provided on axis, the driving gear includes close to the first driving gear of motor base arrangement and close to driving end
Second driving gear of bearing spider arrangement, and the third driving gear between the first driving gear, the second driving gear,
It is arranged with the first drive end bearing flap, the second drive end bearing flap positioned at the left and right ends of drive end bearing support, is located at
It is provided with drive end axle sealing between second drive end bearing flap and the second driving gear, is located at drive end axle in drive shaft and seals
It is provided with driving end floating sealing ring between part and the second drive end bearing flap, the is resisted against on the left of the driving end floating sealing ring
At the interior step of two drive end bearing flaps, right side is resisted against at the interior step of drive end axle sealing;
The guiding mechanism includes the guide end bearing spider for being placed in buoyancy tank ontology rear end sides, the guiding of guiding mechanism
Pedestal is placed in the bearing of guide end bearing spider of two sides, and guide gear, the guide gear packet are provided on guiding axis
The first guide gear that the guide end bearing spider close to two sides is arranged is included, and the second guiding between the first guide gear
Gear is provided with guide end pedestal cap positioned at the left and right ends of guide end bearing spider, adjacent guide end pedestal cap with
It is provided with guide end axle envelope part between first guide gear, guide end axle envelope part guide end axis adjacent thereto is located on guiding axis
It holds and is provided with guide end floating sealing ring between flap.
Further, the guide end bearing spider includes the fixed plate being connected with this body sidewall of buoyancy tank, in fixed plate
Sliding slot is offered along its length, and the pedestal of guide end bearing spider is fixed on the sliding slot.
Further, gag lever post is additionally provided in the fixed plate, the rear end of gag lever post is resisted against guiding end bearing
The front end of the pedestal of support.
The utility model has the technical effect that buoyancy tank ontology is body structure, is the carrier structure of hydraulic suction dredge floating box structure
Part, the driving mechanism are fixedly connected with buoyancy tank ontology by motor base on buoyancy tank ontology and drive end bearing support, are passed through
Hydraulic motor in driving mechanism drives the rotation of sliding tooth wheel drive crawler belt.The guiding mechanism passes through the guiding on buoyancy tank ontology
End bearing support is fixedly connected with buoyancy tank ontology.The crawler belt respectively with the driving gear in driving mechanism, on guiding mechanism
Guide gear engagement is centered around the outside of buoyancy tank ontology, carrying machinery weight and driving mechanical movement.It is hydraulic in driving mechanism
Motor is connect by bolt with the motor base on buoyancy tank ontology, and the bearing of the drive end bearing support in driving mechanism passes through bolt
It is connect with the drive end bearing support on buoyancy tank ontology.The bearing of guide end bearing spider in guiding mechanism is by bolt and floats
Guide end bearing spider connection on case ontology.The utility model has abandoned existing stationary structure, using pre-driver machine
Structure, postposition guiding mechanism and the Demountable for cooperating crawler belt, it is easy to process, easy to maintenance.And use driving end floating sealing ring,
This floating sealing ring sealing of guide end floating sealing ring, has large carrying capacity, the compensable feature in gap, the performance of machine has significantly
It improves, service life is elongated, and reliability becomes strong.
Detailed description of the invention
Fig. 1 is the three-dimensional structure diagram of the utility model;
Fig. 2 is the top view of the utility model;
Fig. 3 is the three-dimensional structure diagram of the buoyancy tank body fits driving mechanism of the utility model, guiding mechanism;
Fig. 4 is the cross-section diagram of the driving mechanism of the utility model.
Specific embodiment
Referring to attached drawing, a kind of hydraulic suction dredge buoyancy tank, including buoyancy tank ontology 30, the front and rear ends of buoyancy tank ontology 30 are arranged with drive
Motivation structure 20 and guiding mechanism 40 are equipped with crawler belt 10 along the length direction ring of buoyancy tank ontology 30, the driving mechanism 20 and lead
It is placed in mechanism 40 in the annular of crawler belt 10, motor of the driving mechanism 20 including the 30 front end two sides of buoyancy tank ontology that are placed in
Seat 22 and drive end bearing support 28, are disposed with drive shaft 21, the drive between motor base 22 and drive end bearing support 28
21 one end of moving axis is placed on the hydraulic motor of motor base 22, the other end is placed in the bearing of drive end bearing support 28, is driven
It is provided with driving gear on moving axis 21, the driving gear includes the first driving gear arranged close to motor base 22 and close
The second driving gear that drive end bearing support 28 is arranged, and the third between the first driving gear, the second driving gear
Gear is driven, is arranged with the first drive end bearing flap 26, second driving end positioned at the left and right ends of drive end bearing support 28
Pedestal cap 27 is provided with drive end axle sealing 29 between the second drive end bearing flap 27 and the second driving gear, drives
Driving end floating sealing ring 25 is provided on moving axis 21 between drive end axle sealing 29 and the second drive end bearing flap 27, it is described
Driving end floating sealing ring 25 left side be resisted against at the interior step of the second drive end bearing flap 27, right side is resisted against drive end axle
At the interior step of sealing 29;
The guiding mechanism 40 includes the guide end bearing spider 48 for being placed in 30 rear end sides of buoyancy tank ontology, guiding mechanism
40 guiding axis 41 is placed in the bearing of guide end bearing spider 48 of two sides, and guide gear, institute are provided on guiding axis 41
The guide gear stated includes the first guide gear that the guide end bearing spider 48 close to two sides is arranged, and is located at the first guiding tooth
The second guide gear between wheel is provided with guide end pedestal cap positioned at the left and right ends of guide end bearing spider 48, adjacent
Guide end pedestal cap and the first guide gear between be provided with guide end axle envelope part, guide end axle envelope is located on guiding axis 41
Guide end floating sealing ring is provided between part guide end pedestal cap adjacent thereto.
Further, the guide end bearing spider 48 includes the fixed plate being connected with 30 side wall of buoyancy tank ontology, fixed
Sliding slot is offered on plate along its length, the pedestal of guide end bearing spider 48 is fixed on the sliding slot.
Further, gag lever post is additionally provided in the fixed plate, the rear end of gag lever post is resisted against guiding end bearing
The front end of the pedestal of support 48.
Buoyancy tank ontology 30 as shown in the figure is body structure, is the support element of hydraulic suction dredge floating box structure, the driving mechanism
20 are fixedly connected by motor base 22 on buoyancy tank ontology 30 and drive end bearing support 28 with buoyancy tank ontology 30, and driving machine is passed through
Hydraulic motor on structure 20 drives sliding tooth wheel drive crawler belt 10 to rotate.The guiding mechanism 40 passes through leading on buoyancy tank ontology 30
It is fixedly connected to end bearing support 48 with buoyancy tank ontology 30.The crawler belt 10 with the driving gear in driving mechanism 20, is led respectively
Guide gear engagement in mechanism 40 is centered around the outside of buoyancy tank ontology 30, carrying machinery weight and driving mechanical movement.Figure
Shown in hydraulic motor in driving mechanism 20 connect by bolt with the motor base 22 on buoyancy tank ontology 30, in driving mechanism
The bearing of drive end bearing support 28 is connect by bolt with the drive end bearing support 28 on buoyancy tank ontology 30.It leads as shown in the figure
The bearing of guide end bearing spider 48 into mechanism 40 is connected by the guide end bearing spider 48 on bolt and buoyancy tank ontology 30
It connects.The utility model has abandoned existing stationary structure, using pre-driver mechanism 20, postposition guiding mechanism 40 and cooperates shoe
It is easy to process, easy to maintenance with 10 Demountable.And it is this floating using driving end floating sealing ring 25, guide end floating sealing ring
Seal ring sealing has large carrying capacity, the compensable feature in gap, and the performance of machine increases significantly, and service life is elongated,
Reliability becomes strong.
The pedestal of guide end bearing spider 48 is slided along the sliding slot of fixed plate, 10 pine of the transmission of guidance crawler belt 10 and adjusting crawler belt
Tightness.And in order to further ensure the stability of elasticity after adjusting, setting gag lever post is limited.
Claims (3)
1. a kind of hydraulic suction dredge buoyancy tank, including buoyancy tank ontology (30), it is characterised in that: the front and rear ends of buoyancy tank ontology (30) set up separately
There are driving mechanism (20) and guiding mechanism (40), is equipped with crawler belt (10), the drive along the length direction ring of buoyancy tank ontology (30)
Motivation structure (20) and guiding mechanism (40) are placed in the annular of crawler belt (10), and the driving mechanism (20) includes the buoyancy tank that is placed in
The motor base (22) and drive end bearing support (28) of ontology (30) front end two sides, motor base (22) and drive end bearing support
(28) it is disposed between drive shaft (21), the drive shaft (21) one end is placed on the hydraulic motor of motor base (22), is another
One end is placed in the bearing of drive end bearing support (28), and driving gear, the sliding tooth are provided in drive shaft (21)
Wheel includes the first driving gear close to motor base (22) arrangement and the second driving close to drive end bearing support (28) arrangement
Gear, and the third driving gear between the first driving gear, the second driving gear, are located at drive end bearing support (28)
Left and right ends be arranged with the first drive end bearing flap (26), the second drive end bearing flap (27), be located at second driving end
It is provided with drive end axle sealing (29) between pedestal cap (27) and the second driving gear, drive end axle is located in drive shaft (21)
Driving end floating sealing ring (25), the driving end floating sealing ring are provided between sealing (29) and the second drive end bearing flap (27)
(25) it is resisted against on the left of at the interior step of the second drive end bearing flap (27), right side is resisted against drive end axle sealing (29)
At interior step;
The guiding mechanism (40) includes the guide end bearing spider (48) for being placed in buoyancy tank ontology (30) rear end sides, Guiding machine
The guiding axis (41) of structure (40) is placed in the bearing of guide end bearing spider (48) of two sides, is provided with and is led on guiding axis (41)
To gear, the guide gear includes the first guide gear and position that the guide end bearing spider (48) close to two sides is arranged
The second guide gear between the first guide gear, the left and right ends for being located at guide end bearing spider (48) are provided with guide end
Pedestal cap is provided with guide end axle envelope part, guiding axis (41) between adjacent guide end pedestal cap and the first guide gear
Guide end floating sealing ring is provided between the upper guide end pedestal cap adjacent thereto positioned at guide end axle envelope part.
2. hydraulic suction dredge buoyancy tank according to claim 1, it is characterised in that: the guide end bearing spider (48) include with
Buoyancy tank ontology (30) side wall connected fixed plate offers sliding slot, guide end bearing spider in fixed plate along its length
(48) pedestal is fixed on the sliding slot.
3. hydraulic suction dredge buoyancy tank according to claim 2, it is characterised in that: it is additionally provided with gag lever post in the fixed plate,
The rear end of gag lever post is resisted against the front end of the pedestal of guide end bearing spider (48).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820655123.2U CN208233306U (en) | 2018-05-03 | 2018-05-03 | Hydraulic suction dredge buoyancy tank |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820655123.2U CN208233306U (en) | 2018-05-03 | 2018-05-03 | Hydraulic suction dredge buoyancy tank |
Publications (1)
Publication Number | Publication Date |
---|---|
CN208233306U true CN208233306U (en) | 2018-12-14 |
Family
ID=64581392
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201820655123.2U Expired - Fee Related CN208233306U (en) | 2018-05-03 | 2018-05-03 | Hydraulic suction dredge buoyancy tank |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN208233306U (en) |
-
2018
- 2018-05-03 CN CN201820655123.2U patent/CN208233306U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20181214 |
|
CF01 | Termination of patent right due to non-payment of annual fee |