CN109550399A - A kind of high throughput rotator type energy recycle device - Google Patents
A kind of high throughput rotator type energy recycle device Download PDFInfo
- Publication number
- CN109550399A CN109550399A CN201811501596.8A CN201811501596A CN109550399A CN 109550399 A CN109550399 A CN 109550399A CN 201811501596 A CN201811501596 A CN 201811501596A CN 109550399 A CN109550399 A CN 109550399A
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- Prior art keywords
- end plate
- rotor
- collecting tank
- seal disc
- slot
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D61/00—Processes of separation using semi-permeable membranes, e.g. dialysis, osmosis or ultrafiltration; Apparatus, accessories or auxiliary operations specially adapted therefor
- B01D61/02—Reverse osmosis; Hyperfiltration ; Nanofiltration
- B01D61/06—Energy recovery
Abstract
A kind of high throughput rotator type energy recycle device.Including transmission mechanism, fuel tank, upper seal disc, upper end plate, rotor, rotor sleeve, lower end plate and lower seal disc;Fuel tank, upper seal disc, upper end plate, rotor sleeve, lower end plate and lower seal disc sequentially coaxially connect, and transmission mechanism is mounted in fuel tank and is drivingly connected with multiple rotors;Multiple rotors are mounted in the uniformly distributed duct of rotor sleeve circumferencial direction;Annular gusset is all arranged in one end of upper and lower end plate, high pressure brine is connect by adapter tube F with upper end plate external rings slot, pressure release salt water is connect by adapter tube G with upper end plate inner loop slot, pressurization seawater is connect by adapter tube E with lower end plate external rings slot, and low pressure seawater is connect by adapter tube D with lower end plate inner loop slot;Upper end plate lower end and lower end plate upper end are provided with several pairs of collecting tanks, and the collecting tank of inside, is connected to, the collecting tank in outside is connected to the external annular groove of its other end with the inside annular groove of its other end on end plate.The present invention can greatly improve the treating capacity of device.
Description
Technical field
The present invention relates to one kind to be applied to pressure energy recyclable device in reverse osmosis seawater desalination system, especially a kind of general goal
Reason amount rotator type energy recycle device.
Background technique
Positive displacement energy recycle device realizes pressure energy -- and a step of pressure energy converts, and has energy recovery efficiency high
The advantages of.Rotator type energy recycle device is the Typical Representative of positive displacement energy recycle device, can be by the pressure of high pressure brine
Power can be directly passed to low pressure seawater, reduce the treating capacity of high-pressure pump, be that the important energy conservation in reverse osmosis seawater desalination system is set
It is standby.
A kind of seawater of known Chinese patent CN200620151430 or the rotary pressure of bitter impervious desalination system
Power exchanger and a kind of outer driving rotator type energy recycle device of CN201611266165, the positive displacement energy that they are related to return
Receiving apparatus, it is smaller that there are unit capacities, the high disadvantage of manufacturing cost.
Summary of the invention
In order to overcome the above-mentioned deficiency of the prior art, the present invention provides a kind of high throughput rotator type energy recycle device,
The treating capacity of device, the manufacturing cost of reducing apparatus can be greatly improved.
The technical solution used to solve the technical problems of the present invention is that: including transmission mechanism, fuel tank, upper seal disc, upper end
Disk, rotor, rotor sleeve, lower end plate and lower seal disc;Fuel tank, upper seal disc, upper end plate, rotor sleeve, lower end plate and under it is close
Closing disk sequentially coaxially connects and compresses sealing, and transmission mechanism is mounted in fuel tank and is drivingly connected with rotor;Each rotor
Several ducts I are provided in circumferencial direction, rotor center is provided with one section of blind hole;Rotor sleeve is on several edges of the uniform cloth of circumferencial direction
Axis moves towards the duct IV of perforation, the rotor of corresponding number to be installed in duct IV;The lower end of the upper end plate is upper with lower end plate
End structure is identical, is provided with the several pairs of opposite collecting tanks of bumps, the logarithm of collecting tank and the number of rotor are identical, a pair of of collecting tank
Position it is identical as I position of rotor duct, gusset area between a pair of of collecting tank is greater than the face in a rotor duct I
Product;Annular gusset I is arranged in the upper end of upper end plate, and the position of the annular gusset I is located at the opposite collecting tank of upper end plate lower end bumps
Between, be respectively formed end plate inner loop slot and upper end plate external rings slot inside and outside annular gusset I, high pressure brine by adapter tube F and
Upper end plate external rings slot connection, pressure release salt water are connect by adapter tube G with upper end plate inner loop slot;Annular is arranged in the lower end of lower end plate
The position of gusset II, the annular gusset II is located between the opposite collecting tank of lower end plate upper end bumps, and inside and outside point of annular gusset II
End plate inner loop slot and lower end plate external rings slot Xing Cheng not be descended, pressurization seawater is connect by adapter tube E with lower end plate external rings slot, low
Pressure seawater is connect by adapter tube D with lower end plate inner loop slot;It is located relatively on upper end plate on the collecting tank and upper end plate of inside
Upper end plate inner loop slot is connected, the collecting tank that outside is located relatively on upper end plate and the upper end plate external rings slot phase on upper end plate
Connection;The collecting tank that inside is located relatively on lower end plate is connected with the lower end plate inner loop slot on lower end plate, phase on lower end plate
It is connected to the collecting tank for being located at outside with the lower end plate external rings slot on lower end plate: the outside collecting tank and lower end plate of upper end plate
The connection of outside collecting tank, the inside collecting tank of upper end plate are connected with the inside collecting tank of lower end plate.
Compared with prior art, a kind of high throughput rotator type energy recycle device of the invention by novel rotor, turns
Sub-sleeve, upper end plate and the design of lower end disk construction, innovatively couple the core component of multiple rotator type energy recycle devices
Together, sharing a power-equipment reduces the manufacturing cost of device to improve the treating capacity of device.
Detailed description of the invention
Present invention will be further explained below with reference to the attached drawings and examples.
Fig. 1 is the full sectional view of one embodiment of the invention.
Fig. 2 is the cross-sectional view in Fig. 1 at A-A.
Fig. 3 is the cross-sectional view in Fig. 1 at B-B.
Fig. 4 is the cross-sectional view in Fig. 1 at C-C.
Fig. 5 is the end view of rotor in the embodiment of the present invention.
Fig. 6 is the end view of rotor sleeve in the embodiment of the present invention.
Wherein: 1, driving shaft, 2, upper bearing (metal) gland, 3-1, upper rolling bearing, 3-2, lower rolling bearing, 4, driving wheel, 5,
Lower axle pressure cap, 6, fuel tank, 7, driven axle, 8, follower, 9, upper seal disc, 10, sliding bearing, 11, upper end plate, 11-1, ring
Shape gusset I, 11-2, upper end plate external rings slot, 11-3, upper end plate inner loop slot, 11-4, duct III, 12, rotor, 12-1, duct
I, 12-2, blind hole, 13, rotor sleeve, 13-1, duct IV, 14, lower end plate, 14-1, annular gusset II, outside 14-2, lower end plate
Annular groove, 14-3, lower end plate inner loop slot, 14-4, collecting tank, 15, lower seal disc.
Specific embodiment
In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention
In attached drawing, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is
A part of the embodiments of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, ordinary skill people
Member's every other embodiment obtained without making creative work, belongs to protection scope of the present invention.
Fig. 1 to Fig. 6 shows the structural schematic diagram of a preferred embodiment of the invention, one of Fig. 1 high throughput
Rotator type energy recycle device, including transmission mechanism, fuel tank 6, upper seal disc 9, upper end plate 11, rotor 12, rotor sleeve 13, under
End plate 14 and lower seal disc 15;Fuel tank 6, upper seal disc 9, upper end plate 11, rotor sleeve 13, lower end plate 14 and the lower sealing
Disk 15 sequentially coaxially connects, using bolt presses and seal with elastometic washer;The transmission mechanism includes driving shaft 1, upper bearing (metal) pressure
Lid 2, upper rolling bearing 3-1, lower rolling bearing 3-2, driving wheel 4, lower axle pressure cap 5, driven axle 7, follower 8 and sliding bearing
10。
Wherein, rotor 12 is provided with several I 12-1 of duct in circumferencial direction, the cross sectional shape of I 12-1 of duct can be it is round,
Sector, the number of I 12-1 of duct can be odd number and be also possible to even number;12 center of rotor is provided with one section of blind hole 12-2, blind hole 12-
2 front end is circular hole, and the end of blind hole 12-2 is rectangular (referring to Fig. 5);Rotor sleeve 13 is several in the uniform cloth of circumferencial direction
The rotor 12 (referring to Fig. 6) of corresponding number is installed in a IV 13-1 of duct for moving towards perforation along axis, IV 13-1 of duct;Rotor set
The height of cylinder 13 is 0.02mm~0.06mm bigger than the height of rotor 12;The IV 13-1 internal diameter of duct of rotor sleeve 13 is than rotor 12
Big 0.02~the 0.08mm of outer diameter.
Driven axle 7 sequentially passes through seal disc 9 and upper end plate 11, is inserted into rotor 12, specific implementation structure is upper sealing
Disk 9 is provided with multiple ducts II passed through for driven axle 7 in circumferencial direction, and I 11-1 of annular gusset of upper end plate 11 is in circumferencial direction
Also multiple III 11-4 of duct passed through for driven axle 7 are provided with, III 11-4 of duct in the duct II on upper seal disc 9 and upper end plate 11
Number of positions is consistent, and corresponding with the number of positions of rotor 12.Driven axle 7 by mechanical seal or is filled out with upper seal disc 9
Material sealing is sealed;Driven axle 7 is positioned by the sliding bearing 10 connecting with upper seal disc 9 and upper end plate 11, passively
The end of axis 7 is rectangular.7 end of driven axle is connect with the end blind hole 12-2 by square structure, and driven axle 7 drives rotor 12
It is rotated.
The upper end of driving shaft 1 passes through fuel tank 6, and the lower end of driving shaft 1 passes through upper seal disc 9, by upper rolling bearing 3-1 and
Lower rolling bearing 3-2 positions the both ends of driving shaft 1;Upper rolling bearing 3-1 is mounted on fuel tank 6, and passes through upper bearing (metal)
Gland 2 compresses bearing;Lower rolling bearing 3-2 is mounted on seal disc 9, and is compressed bearing by lower axle pressure cap 5, under
Bearing gland 5 and upper seal disc 9 pass through seal with elastometic washer;Between fuel tank 6 and driving shaft 1 using mechanical seal or packing seal into
Row Fluid Sealing;Driving shaft 1, which is connected by key, drives driving wheel 4 to rotate, and the upper end of driven axle 7 is connect by key with follower 8,
Driving wheel 4 is by driving follower 8 that driven axle 7 is driven to rotate;It can be by changing the number of teeth between driving wheel 4 and follower 8
Than come the revolving speed that adjusts rotor 12.
Referring to fig. 4, the upper end of lower end plate 14 is provided with the opposite collecting tank 14-4 of several pairs of bumps, the logarithm of collecting tank 14-4 with
The number of rotor 12 is identical, and the position of a pair of of collecting tank 14-4 and I position 12-1 of duct of rotor 12 are identical, a pair of of liquid collecting
Gusset area between slot 14-4 is greater than the area of I 12-1 of duct of a rotor;The lower end of upper end plate 11 and lower end plate 14
Upper end formation is identical.
Referring to Fig. 3, I 11-1 of annular gusset is arranged in the upper end of upper end plate 11, and the position of I 11-1 of the annular gusset is located at upper end
Between the opposite collecting tank 14-4 of 11 lower end bumps of disk, end plate inner loop slot 11-3 is respectively formed inside and outside I 11-1 of annular gusset
With upper end plate external rings slot 11-2, high pressure brine is connect by adapter tube F with upper end plate external rings slot 11-2, and pressure release salt water is by connecing
Pipe G is connect with upper end plate inner loop slot 11-3, and I 11-1 of annular gusset is for being isolated high-low pressure salt water.
Referring to fig. 2, II 14-1 of annular gusset is arranged in the lower end of lower end plate 14, under the position of II 14-1 of the annular gusset is located at
Between the opposite collecting tank 14-4 of 14 upper end bumps of end plate, lower end plate inner loop slot is respectively formed inside and outside II 14-1 of annular gusset
14-3 and lower end plate external rings slot 14-2, pressurization seawater are connect by adapter tube E with lower end plate external rings slot 14-2, and low pressure seawater is logical
It crosses adapter tube D to connect with lower end plate inner loop slot 14-3, II 14-1 of annular gusset is for being isolated high-low pressure seawater.
The collecting tank 14-4 that inside is located relatively on upper end plate 11 and the upper end plate inner loop slot 11-3 phase on upper end plate 11
It is connected to, the collecting tank 14-4 that outside is located relatively on upper end plate 11 is connected with the upper end plate external rings slot 11-2 on upper end plate 11
It is logical;The collecting tank 14-4 that inside is located relatively on lower end plate 14 is connected with the lower end plate inner loop slot 14-3 on lower end plate 14,
The collecting tank 14-4 that outside is located relatively on lower end plate 14 is connected with the lower end plate external rings slot 14-2 on lower end plate 14;Upper end
The outside collecting tank 14-4 of disk 11 is connected to lower 14 outside collecting tank 14-4 of end plate, and the inside collecting tank 14-4 of upper end plate 11 is under
The inside collecting tank 14-4 of end plate 14 is connected.
The above is only presently preferred embodiments of the present invention, not does limitation in any form to the present invention, it is all according to
According to technical spirit of the invention, any simple modification and same variation are made to above embodiments, each fall within guarantor of the invention
Within the scope of shield.
Claims (6)
1. a kind of high throughput rotator type energy recycle device, including transmission mechanism, fuel tank (6), upper seal disc (9), upper end plate
(11), rotor (12), rotor sleeve (13), lower end plate (14) and lower seal disc (15);Fuel tank (6), upper seal disc (9), upper end
Disk (11), rotor sleeve (13), lower end plate (14) and lower seal disc (15) sequentially coaxially connect and compress sealing, transmission mechanism peace
It is drivingly connected in fuel tank (6) and with rotor (12);It is characterized in that:
Each rotor (12) is provided with several ducts I (12-1) in circumferencial direction, and rotor (12) center is provided with one section of blind hole
(12-2);Rotor sleeve (13) the uniform cloth of circumferencial direction several along axis move towards perforation duct IV (13-1), duct IV
The rotor (12) of corresponding number is installed in (13-1);
Annular gusset I (11-1) is arranged in the upper end of the upper end plate (11), and the position of the annular gusset I (11-1) is located at upper end plate
(11) between the opposite collecting tank of lower end bumps (14-4), annular gusset I (11-1) is inside and outside to be respectively formed end plate inner loop slot
(11-3) and upper end plate external rings slot (11-2), high pressure brine are connect by adapter tube F with upper end plate external rings slot (11-2), pressure release
Salt water is connect by adapter tube G with upper end plate inner loop slot (11-3);
Annular gusset II (14-1) is arranged in the lower end of lower end plate (14), and the position of the annular gusset II (14-1) is located at lower end plate
(14) between the opposite collecting tank of upper end bumps (14-4), annular gusset II (14-1) is inside and outside to be respectively formed lower end plate inner loop slot
(14-3) and lower end plate external rings slot (14-2), pressurization seawater are connect by adapter tube E with lower end plate external rings slot (14-2), low pressure
Seawater is connect by adapter tube D with lower end plate inner loop slot (14-3);
The lower end of upper end plate (11) is identical as the upper end formation of lower end plate (14), is provided with the opposite collecting tank (14- of several pairs of bumps
4), the logarithm of collecting tank (14-4) is identical as rotor (12), the position of collecting tank (14-4) and the I (12- of duct of rotor (12)
1) position is identical, and the gusset area between a pair of of collecting tank (14-4) is greater than the area in the duct I (12-1) of a rotor;
The collecting tank (14-4) that inside is located relatively on upper end plate (11) is connected with upper end plate inner loop slot (11-3), upper end plate
(11) collecting tank (14-4) that outside is located relatively on is connected with upper end plate external rings slot (11-2);It is opposite on lower end plate (14)
Collecting tank (14-4) positioned inside is connected with lower end plate inner loop slot (14-3), and outside is located relatively on lower end plate (14)
Collecting tank (14-4) is connected with lower end plate external rings slot (14-2);The outside collecting tank (14-4) and lower end plate of upper end plate (11)
(14) outside collecting tank (14-4) is connected to, the inside collecting tank of the inside collecting tank (14-4) of upper end plate (11) and lower end plate (14)
(14-4) is connected.
2. a kind of high throughput rotator type energy recycle device according to claim 1, it is characterized in that: the driver
Structure includes driving shaft (1), upper bearing (metal) gland (2), upper rolling bearing (3-1), lower rolling bearing (3-2), driving wheel (4), lower axle
Pressure cap (5), driven axle (7), follower (8) and sliding bearing (10);Driven axle (7) sequentially passes through seal disc (9), upper end
Disk (11) is inserted into rotor (12) afterwards, seals between driven axle (7) and upper seal disc (9);Driven axle (7) by with upper seal disc
(9) it is positioned with the sliding bearing (10) of upper end plate (11) connection;The upper end of driven axle (7) is fixedly connected with follower (8);
The end of driven axle (7) is fixedly connected in the blind hole (12-2) of rotor (12);The upper and lower side of driving shaft (1) is each passed through fuel tank
(6) and the middle part of upper seal disc (9), and pass through upper rolling bearing (3-1) and lower rolling bearing (3-2) positioning;On driving shaft (1)
It is fixedly connected with the driving wheel (4) being meshed with each follower (8).
3. a kind of high throughput rotator type energy recycle device according to claim 2, it is characterized in that: the upper sealing
Disk (9) is provided with multiple ducts II passed through for driven axle (7) in circumferencial direction, and the annular gusset I of upper end plate (11) is in circumference side
To being also provided with multiple ducts III (11-4) passed through for driven axle (7), the duct II on upper seal disc (9) and upper end plate (11)
Duct III (11-4) number of positions is consistent, and corresponding with the number of positions of rotor (12).
4. a kind of high throughput rotator type energy recycle device according to claim 2 or 3, it is characterized in that: the quilt
Moving axis (7) is sealed with upper seal disc (9) by mechanical seal or packing seal;Upper rolling bearing (3-1) is mounted on oil
On case (6), and upper rolling bearing (3-1) is compressed by upper bearing (metal) gland (2);Lower rolling bearing (3-2) is mounted on sealing
On disk (9), and bearing is compressed by lower axle pressure cap (5), lower axle pressure cap (5) is close by rubber ring with upper seal disc (9)
Envelope;Fluid Sealing is carried out using mechanical seal or packing seal between fuel tank (6) and driving shaft (1);Driving shaft (1) is connected by key
Tape splicing moves driving wheel (4) rotation, and the upper end of driven axle (7) is connect by key with follower (8).
5. a kind of high throughput rotator type energy recycle device according to claim 1, it is characterized in that: the rotor
(12) cross sectional shape in duct I (12-1) in a circumferential direction is round or fan-shaped;On rotor (12) before blind hole (12-2)
End is circular hole, and the end of blind hole (12-2) is rectangular;The end of driven axle (7) is rectangular, the end of driven axle (7) and blind hole
The end of (12-2) connects.
6. a kind of high throughput rotator type energy recycle device according to claim 1, it is characterized in that: the rotor sleeve
(13) height is 0.02mm~0.06mm bigger than the height of rotor (12);(13-1) internal diameter of duct IV of rotor sleeve (13) is than turning
Big 0.02~the 0.08mm of outer diameter of sub (12).
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CN201811501596.8A CN109550399B (en) | 2018-12-10 | 2018-12-10 | High-throughput rotor type energy recovery device |
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CN201811501596.8A CN109550399B (en) | 2018-12-10 | 2018-12-10 | High-throughput rotor type energy recovery device |
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CN109550399B CN109550399B (en) | 2023-09-19 |
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