CN106801904B - Heating network bifurcated passage ultromotivity assignment of traffic regulating device and its adjusting method - Google Patents

Abstract

The present invention relates to heating network bifurcated passage ultromotivity assignment of traffic regulating device and its adjusting methods, this heating network bifurcated passage ultromotivity assignment of traffic regulating device by by impeller, driving shaft, taper driving gear, taper driven gear, driven shaft, water pump blade is divided to be mounted on pipeline threeway come in water pipe, realization actively divides water, adjusts the flow of hot net water in cold-zone domain distributive pipe and thermal region distributive pipe；Impeller setting comes in water pipe in threeway, impeller connects driving shaft, the driving shaft other end connects taper driving gear, on the one hand taper driven gear is engaged with taper driving gear, on the other hand taper driven gear connects driven shaft, driven shaft and water pump blade is divided to be arranged in the distributive pipe of cold-zone domain, driven axis connection divides water pump blade, and taper driving gear and taper driven gear are arranged at bleeder.The present invention relies on the self-energy of pipeline hot water flowing, increases the energy of flow of lightpenia domain branch pipe hot water, realizes that hot water flow, heat are reallocated.

Description

Heating network bifurcated passage ultromotivity assignment of traffic regulating device and its adjusting method

Technical field

The present invention relates to the heating network pipelines in heating system, and in particular to heating network bifurcated passage ultromotivity flow Distribute regulating device and its adjusting method.

Background technique

In winter in regional heating system, often there is uneven heating weighing apparatus phenomenon.A part of regional heating temperature is low, indoor The minimum temperature of statutory regulation is not achieved in cold, heating temperature, and many users refuse to pay heating cost.And another part region Heating temperature is higher, and many users open a window cooling often, and amount of heat is discharged to outdoor, causes the huge waste of the energy.This area " a cold, heat " phenomenon in the heating of domain, occurs in many places.Region heating temperature is uneven, generate " it is one cold, one The reason of heat " phenomenon, is mainly very much, mainly there is the following:

(1) design of heating pipe network is unreasonable；

(2) heating network, radiator, valve group installation are unreasonable；

(3) heat capacity of heating pipe network distribution and the power load distributing of number of users mismatch；

(4) the heat preservation situation of heating network outdoor section is poor, and amount of heat scatters and disappears；

(5) pipeline, radiator fouling etc., capacity of heat transmission variation etc.；

(6) heat insulation effect of a part of building is poor (wall thermal insulating, door and window heat preservation, roof protection etc.)；

(7) boiler heat supplying ability is limited.

Region heating temperature is uneven at present, when generating " a cold, heat " phenomenon, currently used solution Have:

(1) increase boiler number of units or increase boiler tonnage.Although solving the problem of that " cold " but " heat " is tighter Weight, the heat waste in hot area domain is bigger, while equipment investment and coal consumption dramatically increase, and cost and blowdown flow rate all sharply increase Greatly.

(2) the uninterrupted sustained combustion heat supply of existing boiler increases heat capacity.As a result substantially in the same manner as above, The problem of " cold ", solves, but the problem of heat is more serious.Coal consumption increases, and cost and discharge amount of exhaust gas all obviously increase.Together When uninterrupted sustained combustion significantly reduce boiler life.

(3) increase lightpenia domain pipe network caliber and radiator quantity.But it is costly big with operating expenses to will lead to material Width is promoted, moreover, construction cost is also very high if winter replacement pipe network job execution is highly difficult.

(4) booster station is set on the bifurcated passage in heating lightpenia domain, improves the hot water circuit ability in lightpenia domain. The method has obvious advantage than aforementioned 3 kinds of methods, but booster station needs stringing road to connect power supply, and equipment installs motor pressure (hydraulic) water Pump, will also install thermal insulation pump station, arrange guard on duty.Investment and management cost are also larger.

There are serious problems in various aspects such as investment, coal consumption, blowdown, management, costs for above method, so inventing investment Less, coal consumption is few, management less, the at low cost simple and easy method for solving the problems, such as regional heating " a cold, heat " seemed particularly significant And it is urgent.

Summary of the invention

It is an object of the present invention to provide heating network bifurcated passage ultromotivity assignment of traffic regulating device, this heat supplies Pipe network bifurcated passage ultromotivity assignment of traffic regulating device is used to solve processing when current region heating temperature imbalance There is the problems such as investment is big, coal consumption is high, blowdown flow rate is big, at high cost in method；It is a further object to provide this heat supplies The adjusting method of pipe network bifurcated passage ultromotivity assignment of traffic regulating device.

The technical solution adopted by the present invention to solve the technical problems is: this heating network bifurcated passage ultromotivity flow Distribution regulating device by by impeller, driving shaft, taper driving gear, taper driven gear, driven shaft, water pump blade is divided to install Come in water pipe in pipeline threeway, realization actively divides water, adjusts the flow of hot net water in cold-zone domain distributive pipe and thermal region distributive pipe； Impeller setting comes in water pipe in threeway, and impeller connects driving shaft, and the driving shaft other end connects taper driving gear, taper driven tooth On the one hand wheel engage with taper driving gear, taper driven gear on the other hand connection driven shaft, driven shaft with divide water pump blade It is arranged in the distributive pipe of cold-zone domain, driven axis connection divides water pump blade, and taper driving gear and the setting of taper driven gear exist At bleeder；Driving shaft is supported by first support and second support, passes through axis between driving shaft and first support, second support Connection is held, driven shaft is supported by third bracket and the 4th bracket, and driven shaft and third bracket and the 4th bracket are connected by bearing It connects；First support, second support, third bracket, the 4th bracket are fixedly connected with corresponding tube wall, and structure is identical, above-mentioned The center of each bracket has bearing block, and stent foot is the steel with tooth with tube wall identical radian measure；Stent foot passes through hexagonal Positive left-hand thread stud is connect with support arm, by rotating the positive left-hand thread stud of hexagonal come adjusting bracket foot at a distance from tube wall And support force, and lock.

Forward screw thread locking nut, reverse thread locking is respectively set in hexagonal positive left-hand thread stud both ends in above scheme Nut；Using the spanner rotation positive left-hand thread stud of hexagonal come adjusting bracket foot at a distance from tube wall and support force, and by just It is locked to threaded lock nut, reverse thread locking nut.

First support, second support, third bracket, the 4th bracket are cross-shaped structure or Y-shaped three in above scheme Arm configuration or five arm configurations or six arm configurations.

The inlet that threeway carrys out water pipe in above scheme is provided with pressure gauge, flow sensor, electric control valve, and flow passes Sensor connects PLC control system, and PLC control system controls electric control valve by controller, and heat oneself may be implemented in this way It is dynamic to adjust control.

The method that above-mentioned heating network bifurcated passage ultromotivity assignment of traffic regulating device carries out assignment of traffic adjusting:

Come that impeller, taper driving gear, taper driven gear are installed in water pipe in threeway, the rotation of heat supply network water slug impeller, By the driving impeller rotation of hot net water energy of flow, mechanical energy can be become by completing fluid；Impeller drives the rotation of taper driving gear, taper Driving gear drives the rotation of taper driven gear, and installation divides water pump blade in vertical distributive pipe, and " angular wheel transmission turns for utilization To " principle, it is that taper driven gear rotates horizontally in vertical tube the vertical rotation transformation of taper driving gear in horizontal tube；Again Divide water pump blade to rotate by driven shaft drive, is driven in the distributive pipe of cold-zone domain using the mechanical energy on taper driven gear and divide water pump Blade drives the speed-raising of hot net water pressure-raising, completes to be converted into fluid flow energy by mechanical energy, is flowed into hot net water more cold In the distributive pipe of region, the heating load in cold-zone domain is improved, reduction hot net water is flowed into thermal region and divides water out, and thermal region divides water to go out Mouth heat supply network water pressure, flow all reduce, to reduce the heating load of thermal region.

The invention has the following advantages:

1, the self-energy that the present invention is flowed by pipeline hot water；The energy of flow of hot area domain branch pipe hot water is reduced, is increased Add the energy of flow of lightpenia domain branch pipe hot water, to reduce hot area domain branch pipe hot water flow, increases lightpenia domain branch pipe heat Water flow reaches hot water flow by fluid flow energy reallocation, heat is reallocated.

2, the present invention be increased without boiler, fuel and do not have to replacement pipeline, realize administer heating region in " one is cold, One heat " phenomenon.

3, the present invention is increased without electronic power pumping station, also achieves " one is cold, a heat " phenomenon adjusted in heating region.

4, the present invention solves " one in heating region using the self-energy of fluid in pipeline without external connection power It is cold, a heat " phenomenon.

5, the present invention realizes that bifurcated passage hot water amount redistributes, and the hot water amount of high-temperature area is reduced, and indoor high temperature drops to Reasonable temperature；Cold-zone domain hot water amount increases, and improves low temperature room temperature, reaches the heating temperature standard of statutory regulation.Not only solve Certainly " a cold, heat " problem, and investing, energy-saving and emission-reduction of economizing on coal, cost declining etc. also have great progress.

Detailed description of the invention

Fig. 1 is the structural diagram of the present invention；

Fig. 2 is the structural schematic diagram of first support in the present invention.

In Fig. 1: 1 first support；2 arrival end ring flanges；3 impellers；4 threeways carry out water pipe；5 driving shafts；6 second supports；7 is cold The outlet of region distributive pipe；8 third brackets；9 cold-zone domain distributive pipe end flanges disks；10 points of water pump blades；11 driven shafts；12 cold-zones domain Distributive pipe；13 the 4th brackets；14 taper driven gears；15 taper driving gears；16 thermal region distributive pipes；17 thermal regions divide water to go out Mouth end flanges disk；18 heat supply network water inlets；The outlet of 19 thermal region distributive pipes；20 stent foots；21 reverse thread locking nuts；22 hexagonals Positive left-hand thread stud；23 forward screw thread locking nuts；24 support arms；25 bearing blocks.

Specific embodiment

The present invention will be further described below with reference to the drawings:

As shown in Figure 1, Figure 2, this heating network bifurcated passage ultromotivity assignment of traffic regulating device is mounted on a point water Pipe threeway comes in water pipe 4.When installation, original common threeway need to be disassembled from pipeline, using four brackets, by the present apparatus It is fixed on threeway to come in water pipe 4, threeway is then carried out into water pipe 4 again by arrival end ring flange 2, cold-zone domain distributive pipe end flanges disk 9, thermal region divides water outlet end ring flange 17 to connect in pipeline.

This heating network bifurcated passage ultromotivity assignment of traffic regulating device includes impeller 3, driving shaft 5, taper active Gear 15, driven shaft 11, divides water pump blade 10 at taper driven gear 14；The entrance that threeway carrys out water pipe 4 is heat supply network water inlet 18, The outlet of threeway is respectively thermal region distributive pipe outlet 19 and cold-zone domain distributive pipe outlet 7；Impeller 3, which is arranged, carrys out water pipe 4 in threeway Interior, impeller 3 connects driving shaft 5, and 5 other end of driving shaft connects taper driving gear 15, on the one hand taper driven gear 14 connects On the other hand taper driving gear 15, taper driven gear 14 connect driven shaft 11, driven shaft 11 and water pump blade 10 is divided to be all provided with It sets in cold-zone domain distributive pipe 12, the connection of driven shaft 11 divides water pump blade 10, and 15 taper driven gear 14 of taper driving gear is set It sets at bleeder, 15 taper driven gear 14 of taper driving gear directly contacts, and transmits power, the rotation of the two with tooth engagement The ratio between the ratio between speed and the two number of teeth are inversely proportional；Driving shaft 5 is supported by first support 1 and second support 6, driving shaft 5 and the It is connected between one bracket 1, second support 6 by bearing, driven shaft 11 is supported by third bracket 8 and the 4th bracket 13, driven Axis 11 is connect with third bracket 8 and the 4th bracket 13 by bearing；First support 1, second support 6, third bracket 8, the 4th Frame 13 is fixedly connected with corresponding tube wall.

First support 1, second support 6, third bracket 8, the 4th bracket 13 are cross-shaped structure in present embodiment, on The center of each bracket is stated with bearing block 25, stent foot 20 is the steel with tooth with tube wall identical radian measure, convenient for being attached to Tube wall；Stent foot 20 is connect by the positive left-hand thread stud 22 of hexagonal with support arm 24, by rotating the positive left-hand thread double end spiral shell of hexagonal Bolt 22 carrys out adjusting bracket foot 20 at a distance from tube wall and support force, and passes through locking nut and lock, i.e. the positive left-hand thread double end spiral shell of hexagonal 22 one end of bolt is locked by reverse thread locking nut 21 and stent foot 20, and positive 22 other end of left-hand thread stud of hexagonal is by just It is locked to threaded lock nut 23 and support arm 24.

First support 1, second support 6, third bracket 8, the 4th bracket 13 are for tubulature of feeling at ease in the duct in the present invention Part, rod piece or axis, bracket shape can be with Y-shaped three-arm arrangement, five arm configurations, six arm configurations or other multi-arm structures, brackets Center is located at structural focus, and carriage center can install bearing block 25, for installing bearing；Support arm 24 is managed with corresponding Inner wall is fixedly connected, and stent foot 20 is the steel with tooth with tube wall identical radian measure, convenient for being attached to tube wall；24 end of support arm Positive and negative mother buckle screw thread is covered respectively with 20 inner end of stent foot；Stent foot 20 passes through the positive left-hand thread stud 22 of hexagonal and support arm 24 Connection, positive 22 both ends of left-hand thread stud of hexagonal are equipped with positive and negative button locking nut；Stud is rotated using spanner to adjust Stent foot 20 is saved with tube wall at a distance from and support force, and passes through locking nut locking.

The present invention is also designed to: threeway comes 4 inlet of water pipe and is provided with pressure gauge, flow sensor, motorized adjustment Valve, flow sensor connect PLC control system, and PLC control system controls electric control valve by controller, may be implemented in this way The auto-adjustment control of heat.

The method that above-mentioned heating network bifurcated passage ultromotivity assignment of traffic regulating device carries out assignment of traffic adjusting:

Come that impeller 3, taper driving gear 15, taper driven gear 14 are installed in water pipe 4 in threeway, carrys out hot net water in water pipe Impeller is impacted, is rotated by hot net water energy of flow driving impeller 3, mechanical energy can be become by completing fluid；Impeller 3 drives taper driving tooth 15 rotation of wheel, taper driving gear 15 drive taper driven gear 14 to rotate, and installation divides water pump leaf in cold-zone domain distributive pipe 12 Piece 10 utilizes " angular wheel transmission turning " principle, the mechanical energy on taper driving gear 15 is transmitted to taper driven gear 15 On rotating mechanical energy；Water pump blade 10 is divided to rotate by the drive of taper driven gear 14 again, using on taper driven gear 14 Mechanical energy, which drives, divides water pump blade 10 to drive the speed-raising of hot net water pressure-raising in cold-zone domain distributive pipe 12, complete to be converted into stream by mechanical energy Body energy of flow is flowed into hot net water more in cold-zone domain distributive pipe 12, improves the heating load in cold-zone domain, and reduction is flowed into Heat supply network water in thermal region distributive pipe 16, heat supply network water pressure, flow all reduce in thermal region distributive pipe 16, to reduce hot-zone The heating load in domain.

The present invention relies on the self-energy of pipeline hot water flowing, is equivalent to and divides water using the hydraulic turbine and the drive of angular wheel group Pump rotation completes fluid flow energy and reallocates, to realize that hot water flow, heat are reallocated, reduces hot area domain distributive pipe heat The energy of flow of water, increases the energy of flow of lightpenia domain distributive pipe hot water, so that hot area domain distributive pipe hot water flow is reduced, Increase lightpenia domain distributive pipe hot water flow.

The present invention abides by fluid flow energy conservation principle, fluid mass conservation principle and fluid heat conservation principle, i.e., " three laws " principle.1) fluid energy is completed in bifurcated passage internal system to reallocate；2) fluid (quality) flow is reallocated；3) Heat is reallocated.

(1) fluid flow energy conservation principle

1. fluid can be converted into mechanical energy

By hydraulic turbine principle, fluid can be converted into mechanical energy

The variation of fluid energy before and after the hydraulic turbine, the i.e. reduction amount of water power

If the hydraulic turbine is the transformation efficiency that fluid power conversion is mechanical energy energy, then obtained output machine Tool powerAre as follows:

2. turbine mechanical can be converted into taper driven gear mechanical water pump energy

" taper driving gear-taper driven gear " mechanism is utilized, the rotating mechanical energy of a direction is changed into another The rotating mechanical energy in a direction.If transformation efficiency, then taper driven gear divides the mechanical energy that water pump obtainsFor

3. the increment that taper driven gear divides mechanical water pump that can be converted into fluid energy

If the transformation efficiency for dividing mechanical water pump that can be converted into water energy amount is, then cold-zone domain distributive pipe more than 12 obtains Water powerAre as follows:

By fluid dynamics it is found that the 12 increased water power of institute of cold-zone domain distributive pipe are as follows:

Because of two formula aboveIt is equal:

It enables

Then

That is the increment of 12 flow of cold-zone domain distributive pipe is:

The increase ratio of 12 flow of cold-zone domain distributive pipe

(2) fluid mass law of conservation

Bifurcated passage quality summation is constant, under normal pressure because of hot water, can be considered incompressible, so the volume total flow of water It remains unchanged

Before the hydraulic turbine is installed

After the hydraulic turbine is installed

By mass conservation law

That is reduction amount of the incrementss of 12 mass flow of cold-zone domain distributive pipe equal to thermal region pipeline quality flow, total flow The sum of remain unchanged.

(3) fluid heat load law of conservation

Because specific heat capacity is constant in certain temperature range for hot water, heat is loaded in fluid, and mass flow conservation is also fluid Heat load conservation.

H_{It is preceding total}=H_{It is cold}+H_Heat H_{It is total afterwards}=H_{It is new cold}+H_{New heat}

H_{It is preceding total}=H_{It is total afterwards}=H_Always

ΔH_{It is cold}=H_{It is new cold}-H_{It is cold}=H_Heat-H_{New heat}=-(H_{New heat}-H_Heat)=- Δ H_Heat

The heat that i.e. cold-zone domain distributive pipe 12 newly increases is equal to the heating load of thermal region pipeline reduction.

Claims (5)

1. a kind of heating network bifurcated passage ultromotivity assignment of traffic regulating device, it is characterised in that: this heating network bifurcated Pipeline ultromotivity assignment of traffic regulating device is by by impeller (3), driving shaft (5), taper driving gear (15), taper driven tooth Wheel (14), divides water pump blade (10) to be mounted in pipeline tee tube at driven shaft (11), and realization actively divides water, adjusts cold-zone domain point The flow of water pipe (12) and thermal region distributive pipe (16) interior hot net water；The general pipeline of tee tube is that threeway comes water pipe (4), and one is in charge of For thermal region distributive pipe (16), another is in charge of for cold-zone domain distributive pipe (12), and cold-zone domain distributive pipe (12) and threeway carry out water pipe (4) vertically, threeway come water pipe (4), thermal region distributive pipe (16), cold-zone domain distributive pipe (12) intersection be bleeder, threeway come Water pipe (4), two parts that thermal region distributive pipe (16) is same root canal, respectively in the two sides of cold-zone domain distributive pipe (12)；Impeller (3) setting comes in water pipe (4) in threeway, and impeller (3) connects driving shaft (5), and impeller (3) is for helical runner and along driving shaft (5) Length direction setting, driving shaft (5) other end connect taper driving gear (15), taper driven gear (14) one side and taper Driving gear (15) engagement, taper driven gear (14) on the other hand connection driven shaft (11), driven shaft (11) and divides water pump leaf Piece (10) is arranged in cold-zone domain distributive pipe (12), and driven shaft (11) connection divides water pump blade (10), divides water pump blade (10) It is arranged for helical blade and along driven shaft (11) length direction, taper driving gear (15) and taper driven gear (14) setting exist At bleeder；Driving shaft (5) is by first support (1) and second support (6) support, driving shaft (5) and first support (1), the It is connected between two brackets (6) by bearing, driven shaft (11) is supported by third bracket (8) and the 4th bracket (13), driven shaft (11) it is connect with third bracket (8) and the 4th bracket (13) by bearing；First support (1), second support (6), third bracket (8), the 4th bracket (13) is fixedly connected with corresponding tube wall, and structure is identical, and the center of above-mentioned each bracket has bearing Seat (25), stent foot (20) are the steel with tooth with tube wall identical radian measure；Stent foot (20) passes through the positive left-hand thread double end of hexagonal Bolt (22) is connect with support arm (24), by the rotation positive left-hand thread stud (22) of hexagonal come adjusting bracket foot (20) and tube wall Distance and support force, and lock.

2. heating network bifurcated passage ultromotivity assignment of traffic regulating device according to claim 1, it is characterised in that: institute Forward screw thread locking nut (23), reverse thread locking nut is respectively set in positive left-hand thread stud (22) both ends of the hexagonal stated (21)；Using the spanner rotation positive left-hand thread stud (22) of hexagonal come adjusting bracket foot (20) at a distance from tube wall and support force, And it is locked by forward screw thread locking nut (23), reverse thread locking nut (21).

3. heating network bifurcated passage ultromotivity assignment of traffic regulating device according to claim 2, it is characterised in that: institute The first support (1) stated, second support (6), third bracket (8), the 4th bracket (13) are three arm knot of cross-shaped structure or Y-shaped Structure or five arm configurations or six arm configurations.

4. heating network bifurcated passage ultromotivity assignment of traffic regulating device according to claim 3, it is characterised in that: institute The inlet that the threeway stated carrys out water pipe (4) is provided with pressure gauge, flow sensor, electric control valve, and flow sensor connects PLC Control system, PLC control system control electric control valve by controller, the auto-adjustment control of heat may be implemented in this way.

5. a kind of adjusting method of heating network bifurcated passage ultromotivity assignment of traffic regulating device as claimed in claim 3, It is characterized in that: coming the interior mounting bracket of water pipe (4), impeller (3), taper driving gear (15), taper driven gear (14) in threeway, Carry out heat supply network water slug impeller (3) in water pipe, by the driving impeller rotation of hot net water energy of flow, mechanical energy can be become by completing fluid；Leaf It takes turns (3) and drives taper driving gear (15) rotation, taper driving gear (15) drives taper driven gear (14) rotation, in threeway Cold-zone domain distributive pipe (12) in installation divide water pump blade (10), utilize " angular wheel transmission turning " principle, taper actively Mechanical energy on gear (15) is transmitted to the rotating mechanical energy on taper driven gear (14)；It is driven again by taper driven gear (14) Divide water pump blade (10) rotation, is driven in cold-zone domain distributive pipe (12) using the mechanical energy on taper driven gear (14) and divide water pump Blade (10) drives the speed-raising of hot net water pressure-raising, completes to be converted into fluid flow energy by mechanical energy, flows into hot net water more Into cold-zone domain distributive pipe (12), the heating load in cold-zone domain is improved, reduces the hot net water being flowed into thermal region distributive pipe (16) It measures, heat supply network water pressure, flow all reduce in thermal region distributive pipe (16), to reduce the heating load of thermal region.