CN206469767U - New cross flow cooling tower receives water packing - Google Patents
New cross flow cooling tower receives water packing Download PDFInfo
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- CN206469767U CN206469767U CN201621448732.8U CN201621448732U CN206469767U CN 206469767 U CN206469767 U CN 206469767U CN 201621448732 U CN201621448732 U CN 201621448732U CN 206469767 U CN206469767 U CN 206469767U
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Abstract
A kind of new cross flow cooling tower receives water packing, belongs to cooling tower technical field, it is intended to which the receipts water packing structure design for solving existing crossflow cooling tower is unreasonable, the problem of water conservancy diversion is with commutating character difference.The crossflow type cooling tower packing material assembly that it is used is to integrate drop filling and the filler assembly of the band receipts water function of thin film filling, the receipts water dispenser structure for wherein receiving water packing side is that ecto-entad is oblique guide frame, it is arranged on and receives the water packing piece surface sinusoidal main waveform water guide split channel vertical with packing sheet length direction, receive the composite wave-shape water guide shunting heat dissipation channel of the main ripple of water packing piece sine composition parallel with packing sheet length direction, receive the water conservancy diversion guide frame that water packing piece width both sides are honeycombed water conservancy diversion split channels, air water circulation road, which is provided in, receives the air water circulation road that water dispenser structure is received in the connection of water packing piece width side, also it is turbulent-flow-prevention gas channel.Its is simple and practical, even water distribution, it is adaptable to various crossflow cooling tower etc..
Description
Technical field
The utility model is related to the receipts water packing of crossflow cooling tower in cross flow cooling tower technical field a kind of, and (boundary layer is filled out
Material).
Background technology
With continuing to develop and extensive use for cooling tower, to the technical requirements of filler used in cooling tower also more and more higher.
Because filler directly influences the operating efficiency of cooling tower as the core of cooling tower, its heat exchange performance, drag size, especially
Be crossflow cooling tower receipts water packing (boundary layer filler) be also responsible for crossing current flow field in tower be oriented to, eliminate air intake surface vortex make into tower
Air is uniform, reduces the critical function that recirculated water splashes with float drop loss and anti-current-rush etc..But some existing receipts water are filled out
Material bulk strength is low, specific surface area is small, and structure design is unreasonable, and its water conservancy diversion is poor with commutating character, and filler cooling effectiveness is low.
Utility model content
In order to overcome the deficiencies in the prior art, the receipts water packing structure design for solving existing crossflow cooling tower is unreasonable,
The problem of water conservancy diversion and poor commutating character.The purpose of the utility model is a kind of simple and practical, and water conservancy diversion is good with commutating character, fills out
Expect that anti-impact force is big, specific surface area is big, and windage is small, cooling effectiveness is high, even water distribution, recirculated water can be reduced and splashed and drop loss of floaing
And anti-current-rush, greatly improve the new-type crossflow cooling tower receipts water packing of the flow field heat exchanger effectiveness in cooling tower.
The technical scheme in the invention for solving the above technical problem is:
A kind of new cross flow cooling tower receives water packing, and the crossflow type cooling tower packing material assembly that it is used is collection drop
Filler receives the filler assembly of water function with thin film filling in the band of one, wherein:
(1) the receipts water dispenser structure that water packing assembly receipts water packing side is received described in is that ecto-entad is oblique guide frame, is led
To downward, section is trapezoidal zigzag, and assembling block side is honeycombed;
(2) it is to be arranged on receipts water packing piece surface and filler by waveform column and surface film that water packing assembly is received described in
The vertical sinusoidal main waveform water guide split channel in leaf length direction is be arranged on dominant shape filler surface vertical with water drenching direction
It is combined positive and negative circular arc water distribution film and constitutes water drenching passage;
(3) the main ripple composition parallel with packing sheet length direction of receipts water packing piece sine that water packing assembly is received described in is answered
Multiplex shape water guide shunts heat dissipation channel;
(4) the receipts water packing piece width both sides for water packing assembly being received described in are leading for honeycombed water conservancy diversion split channel
Flow guide structure, and the high direction of piece of water packing piece width side is being received for strip air water circulation road;
(5) air water circulation road described in, which is provided in, receives the air water circulation that water dispenser structure is received in the connection of water packing piece width side
Road, vertical direction is that current are folded to passage, and it is gas channel to receive the high-level direction passage of water packing piece, also for for interference guard stream
Passage.
Above-mentioned new cross flow cooling tower receives water packing, receipts water packing piece and the width side of the receipts water packing assembly
It is sinusoidal waveform structure to parallel water guide split channel.
Above-mentioned new cross flow cooling tower receives water packing, the main wave surface of receipts water packing of the receipts water packing assembly with
The parallel water guide split channel of width is the water guide heat dissipation channel for being combined positive and negative arc-shaped structure.
Above-mentioned new cross flow cooling tower receives water packing, the receipts water packing leaf length direction of the receipts water packing assembly
Several main reinforcement is fitted with, several is fitted with ripple assistant reinforcement muscle in the waveform groove for receiving water packing piece, and is filled out receiving water
Tablet distribution is formed with several point-like and strengthens auxiliary bar.
Above-mentioned new cross flow cooling tower receives water packing, and the receipts water packing assembly is the height side for receiving water packing piece
It is that vertical side, opposite side are the receipts that inclined side i.e. cross section is inclined-plane and vertical plane is asymmetric rectangular prismatoid to side
Water packing assembly, and receipts water dispenser structure is equiped with the inclined side for receiving water packing side, it is that ecto-entad is to receive water dispenser structure
Targeting port it is downward it is oblique, be oriented to downward, section is the receipts water dispenser structure that trapezoidal zigzag assembling block side is honeycombed.
Above-mentioned new cross flow cooling tower receives water packing, and the water conservancy diversion guiding mechanism of the receipts water packing assembly is to set
Receiving the water conservancy diversion guiding mechanism of water packing width both sides, its gateway is honeycombed, the symmetrical ecto-entad in both sides is into transmitting
Make the current regularly scattered reverse funnel shaped of uniform divided flows.
Above-mentioned new cross flow cooling tower receives water packing, the receipts water packing bonding height side of the receipts water packing assembly
To adjacent packing sheet crest and trough intervening portion and connect to be distributed on main reinforcement and be formed with several upright post type adhesive spots.
Above-mentioned new cross flow cooling tower receives water packing, and the water conservancy diversion guide frame of the honeycombed water conservancy diversion split channel is
Flow inlet and outlet are regular inequilateral hexagon mouthful body, and its flow inlet is the anti-infundibulate that inner joint is big, external tapping is small
Mouth body.
Above-mentioned new cross flow cooling tower receives water packing, and the air water circulation road is that water conservancy diversion air inlet and water drenching direction are mutual
Intersect and with receiving gas channel and water stream channel of the water packing plane in 56~66 ° of angles, passage side floor projection is staggeredly
Triangular structure.
The utility model preferably receives water dispenser structure and plays the effect of countercurrent tower water collection device and air-flow guide effect, greatly
Reduce recirculated water water-drop sputtering and drop loss phenomenon of floaing;Preferred receipts water dispenser structure be inner side current intersect with inlet channel, and
It is in the angle consistent with cooling tower tower body angle with filler plane, forms gas channel, passage side floor projection is alternate
Rhombus and triangle, gas channel is set on the horizontal plane vertical with current, prevents flow-disturbing in cooling tower, improves filler air intake
Effect and cooling effect;The filler water distribution splashing effects of preferred composite wave-shape conduit pipe and the formation of column adhesive spots with
Water distribution film effect, with reference to the advantage of drop filling and thin film filling;Be preferably one, filler air intake direction, one, inclined-plane
The asymmetrical design of vertical plane, inclined-plane laminating cooling tower tower body angle, the cooling that vertical plane improves cooling tower boundary layer filler is utilized
Rate, and facilitate the combination and replacing of multiple rows of boundary layer filler design.
The utility model is in use, according to design requirement and being actually needed, this new receipts water packing assembly is assembled
In in cross flow cooling tower, you can realize the receipts water operation of cross flow cooling tower.
Because the utility model design employs above-mentioned technical proposal, the receipts of existing crossflow cooling tower are efficiently solved
Water packing structure design is unreasonable, the problem of water conservancy diversion is with commutating character difference.Also by actual dress tower experiment result on trial table for several times
Bright, it has simple and practical, and water conservancy diversion is good with commutating character, and filler anti-impact force is big, and specific surface area is big, and windage is small, cooling
Efficiency high, even water distribution can reduce recirculated water and splash and drop loss and the anti-current-rush of floaing, greatly improve the stream in cooling tower
The advantages of field heat exchanger effectiveness, it is adaptable to various crossflow cooling tower etc..
Brief description of the drawings
The utility model is described in further detail with reference to the accompanying drawings and examples.
Fig. 1 is the structure diagram that the utility model embodiment cross flow cooling tower receives water packing.
Fig. 2 is the top view of Fig. 1 embodiments.
The cross flow cooling tower that Fig. 3 is Fig. 1 receives the structure that water packing is made for cross flow cooling tower receipts water packing assembling block
Sketch.
In accompanying drawing it is each marked as:1 receives water dispenser structure;2 honeycombed water conservancy diversion split channels;3 are combined positive and negative circular arc water distribution film;4
Air water circulation road (water guide split channel);5 receive the vertical side of water packing piece short transverse;6 receive water packing piece short transverse
Inclined side;7 main reinforcements.
Embodiment
Embodiment as Figure 1-Figure 2, the crossflow type cooling tower packing material assembly that the utility model is used is that collection drop is filled out
Expect with thin film filling in the receipts water packing assembly of one, wherein:(1) the receipts that water packing assembly receives water packing side are received described in
Water dispenser structure 1 is that ecto-entad is oblique guide frame, is oriented to downwards, and section is trapezoidal zigzag, and assembling block side is honeycombed;
(2) it is to be arranged on receipts water packing piece surface and filler leaf length side by waveform column and surface film that water packing assembly is received described in
To vertical sinusoidal main waveform water guide split channel 4 be arranged on dominant shape filler surface it is vertical with water drenching direction it is compound just,
Anti- circular arc water distribution film constitutes water drenching passage;Its sinusoidal waveform of the water guide split channel improves packing sheet intensity and can be big
The surface of small form forms moisture film, increases drenching area, blocks water velocity;Its stem height makes waveform peak valley be formed on a small quantity
Staggeredly, current splash into small water droplet, are conducive to the formation of water distribution film and the raising of cooling effectiveness;(3) water packing group is received described in
Fill the sinusoidal composite wave-shape water guide shunting heat dissipation channel for receiving water packing piece water drenching direction composition of body;(4) water packing group is received described in
The receipts water packing piece width both sides of dress body are the water conservancy diversion guide frames of honeycombed water conservancy diversion split channel, and are receiving water packing piece
The high direction of piece of width side is strip air water circulation road 4, and making current, regularly uniform divided flows disperse;The honeycombed
The water conservancy diversion guide frame of water conservancy diversion split channel is that flow inlet and outlet are regular inequilateral hexagon mouthful body, and its flow inlet is
The anti-funnel-shaped orifice body that inner joint is big, external tapping is small;(5) air water circulation road 4 described in is provided in receipts water packing piece width
The air water circulation road of water dispenser structure 1 is received in side connection, and vertical direction is that current are folded to passage, and receiving water packing piece horizontal direction passage is
Gas channel, also for for turbulent-flow-prevention gas channel;The air water circulation road 4 is water conservancy diversion air inlet intersected with water drenching direction and with
Gas channel and water stream channel of the water packing plane in 60 ° of angles are received, passage side floor projection is triangular structure staggeredly;
The receipts water packing piece for the receiving water packing assembly water guide split channel 4 parallel with water drenching direction (i.e. width) is sinusoidal
Wave mode structure;It is described receive water packing assembly the main wave surface of the receipts water packing water guide split channel 4 parallel with width be
It is combined the water guide heat dissipation channel of positive and negative arc-shaped structure;The receipts water packing leaf length direction load for receiving water packing assembly
There is the main reinforcement 7 in 3 roads, 17 roads are fitted with ripple assistant reinforcement muscle in the waveform groove for receiving water packing piece, and receiving water packing piece
Distribution is formed with several point-like and strengthens auxiliary bar, is receiving the adjacent packing sheet crest and trough interleaved bits of water packing bonding short transverse
Put and connect distribution on main reinforcement and be formed with several upright post type adhesive spots;It is described to receive water packing assembly to receive water packing piece
Short transverse side be vertical side, opposite side be inclined side (inclined side of the present embodiment be tiltangleθ for 84 ゜ with it is horizontal
It is consistent that the tower body of streaming cooling tower tilts body wall) it is that cross section is inclined-plane and receipts water of the vertical plane for asymmetric rectangular prismatoid
Filler assembly, and receipts water dispenser structure 1 is equiped with the inclined side for receiving water packing side, it is that ecto-entad is to receive water dispenser structure 1
Targeting port it is downward it is oblique, be oriented to downward, section is the receipts water dispenser structure that trapezoidal zigzag assembling block side is honeycombed;It is described to receive
The water conservancy diversion guiding mechanism of water packing assembly is provided in the water conservancy diversion guiding mechanism for receiving water packing width both sides, its gateway
For honeycombed, the symmetrical ecto-entad in both sides makes the current regularly scattered reverse funnel shaped of uniform divided flows into transmitting.
Claims (9)
1. a kind of new cross flow cooling tower receives water packing, it is provided with crossflow type cooling tower packing material assembly, it is characterised in that should
Crossflow type cooling tower packing material assembly is the receipts water packing assembly for integrating drop filling and thin film filling, wherein:
(1) it is that ecto-entad is oblique guide frame that water packing assembly is received described in and receives the receipts water dispenser structure of water packing side, be oriented to
Under, section is trapezoidal zigzag, and assembling block side is honeycombed;
(2) it is to be arranged on receipts water packing piece surface and filler length of a film by waveform column and surface film that water packing assembly is received described in
The vertical sinusoidal main waveform water guide split channel in degree direction is to be arranged on the vertical with water drenching direction of dominant shape filler surface to be combined
Positive and negative circular arc water distribution film constitutes water drenching passage;
(3) the sinusoidal composite wave-shape water guide shunting radiating for receiving water packing piece water drenching direction composition that water packing assembly is received described in is logical
Road;
(4) the receipts water packing piece width both sides for water packing assembly being received described in are that the water conservancy diversion of honeycombed water conservancy diversion split channel is led
To structure, and the high direction of piece of water packing piece width side is being received for strip air water circulation road;
(5) air water circulation road described in, which is provided in, receives the air water circulation road that water dispenser structure is received in the connection of water packing piece width side,
Vertical direction is that current are folded to passage, and it is gas channel to receive the high-level direction passage of water packing piece.
2. new cross flow cooling tower according to claim 1 receives water packing, it is characterised in that the receipts water packing assembling
The water guide split channel that the receipts water packing piece of body is parallel with water drenching direction is sinusoidal waveform structure.
3. new cross flow cooling tower according to claim 1 receives water packing, it is characterised in that the receipts water packing group
The water guide split channel that the main wave surface of receipts water packing of dress body is parallel with width is the water guide for being combined positive and negative arc-shaped structure
Heat dissipation channel.
4. new cross flow cooling tower according to claim 1 receives water packing, it is characterised in that the receipts water packing assembling
The receipts water packing leaf length direction of body is fitted with several main reinforcement, and several is fitted with ripple in the waveform groove for receiving water packing piece
Assistant reinforcement muscle, and it is formed with several point-like reinforcement auxiliary bars receiving the distribution of water packing piece.
5. new cross flow cooling tower according to claim 1 receives water packing, it is characterised in that the receipts water packing assembling
Body is that vertical side, opposite side are that inclined side i.e. cross section is inclined-plane and vertical plane for the short transverse side for receiving water packing piece
For the receipts water packing assembly of asymmetric rectangular prismatoid, and receipts water dispenser is equiped with the inclined side for receiving water packing side
Structure, receive water dispenser structure be ecto-entad for targeting port it is downward it is oblique, be oriented to downward, section is that trapezoidal zigzag assembling block side is
The receipts water dispenser structure of honeycombed.
6. new cross flow cooling tower according to claim 1 receives water packing, it is characterised in that the receipts water packing assembling
The water conservancy diversion guiding mechanism of body is provided in the water conservancy diversion guiding mechanism for receiving water packing width both sides, and its gateway is honeycombed,
The symmetrical ecto-entad in both sides makes the current regularly scattered reverse funnel shaped of uniform divided flows into transmitting.
7. new cross flow cooling tower according to claim 1 receives water packing, it is characterised in that the receipts water packing assembling
The receipts water packing of body is bonded the adjacent packing sheet crest and trough intervening portion of short transverse and connected to be distributed on main reinforcement
It is formed with several upright post type adhesive spots.
8. new cross flow cooling tower according to claim 1 receives water packing, it is characterised in that the honeycombed water conservancy diversion point
The water conservancy diversion guide frame of circulation road is that flow inlet and outlet are regular inequilateral hexagon mouthful body, and its flow inlet is inner joint
Greatly, the small anti-funnel-shaped orifice body of external tapping.
9. new cross flow cooling tower according to claim 1 receives water packing, it is characterised in that the air water circulation road is
Water conservancy diversion air inlet intersects with water drenching direction and with receiving gas channel and water stream channel of the water packing plane in 56~66 ° of angles,
Passage side floor projection is triangular structure staggeredly.
Priority Applications (1)
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CN201621448732.8U CN206469767U (en) | 2016-12-26 | 2016-12-26 | New cross flow cooling tower receives water packing |
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CN201621448732.8U CN206469767U (en) | 2016-12-26 | 2016-12-26 | New cross flow cooling tower receives water packing |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108168361A (en) * | 2018-02-11 | 2018-06-15 | 广州览讯科技开发有限公司 | A kind of filler for being used to centrifuge air blast cross flow cooling tower |
CN111928720A (en) * | 2019-07-15 | 2020-11-13 | 德州贝诺风力机械设备有限公司 | Filler module and mounting structure and cooling tower thereof |
-
2016
- 2016-12-26 CN CN201621448732.8U patent/CN206469767U/en active Active
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108168361A (en) * | 2018-02-11 | 2018-06-15 | 广州览讯科技开发有限公司 | A kind of filler for being used to centrifuge air blast cross flow cooling tower |
CN111928720A (en) * | 2019-07-15 | 2020-11-13 | 德州贝诺风力机械设备有限公司 | Filler module and mounting structure and cooling tower thereof |
CN111928719A (en) * | 2019-07-15 | 2020-11-13 | 德州贝诺风力机械设备有限公司 | Packing module and cooling tower |
CN111981891A (en) * | 2019-07-15 | 2020-11-24 | 德州贝诺风力机械设备有限公司 | Filler module and mounting structure and cooling tower thereof |
CN111981891B (en) * | 2019-07-15 | 2021-12-28 | 德州贝诺风力机械设备有限公司 | Filler module and mounting structure and cooling tower thereof |
CN111928720B (en) * | 2019-07-15 | 2022-05-10 | 德州贝诺风力机械设备有限公司 | Packing module and cooling tower |
CN111928719B (en) * | 2019-07-15 | 2022-07-08 | 德州贝诺风力机械设备有限公司 | Packing module and cooling tower |
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