CN105972576B - Improved boiler balance container and operation method thereof - Google Patents

Abstract

The invention provides an improved boiler balancing container and an operation method thereof. The invention comprises a cylinder, wherein a liquid storage cavity is arranged in the cylinder, a partition plate is arranged in the liquid storage cavity to divide the liquid storage cavity into an upper cavity and a lower cavity, a communicating pipe is arranged on the partition plate, an upper water inlet pipe is arranged at the upper part of the cylinder, a lower water inlet pipe is arranged at the lower part of the cylinder, the upper water inlet pipe is communicated with the upper cavity, and the lower water inlet pipe is communicated with the lower cavity; the side part of the barrel is provided with a low-pressure drain pipe which is communicated with the upper cavity, the outer pipe opening of the low-pressure drain pipe is provided with a first three-way valve, the other two valve ports of the first three-way valve are respectively connected with the drain pipe and the low-pressure sensor, the bottom of the barrel is provided with a high-pressure drain pipe which is communicated with the lower cavity, the outer pipe opening of the high-pressure drain pipe is provided with a second three-way valve, and the other two valve ports of the second three-way valve are respectively; the inner wall of the cylinder body is provided with a guide sliding surface, the periphery of the partition plate is provided with a sliding edge, and the outside of the cylinder body is provided with a driving mechanism which is connected with the partition plate.

Description

A kind of improved boiler equalizing reservoir and its operation method

Technical field

The invention belongs to field of mechanical technique, is related to a kind of boiler plant, particularly a kind of improved boiler equalizing reservoir And its operation method.

Background technology

Equalizing reservoir is a kind of clever structure, has the Level Measuring Equipment in Steam Drum of self-compensating ability.Equalizing reservoir point Single-compartment balance container and double-chamber balancing vessel, double-chamber balancing vessel have an annular funnel structure will be whole above benchmark cup Individual equalizing reservoir is divided into two parts.

Existing equalizing reservoir can not carry out the detection of water level high and low pressure, it is impossible to preferably be provided precisely for operating personnel Pressure behaviour data, and then can not more preferably carry out the too low or too high warning of water level in the boiler.

The content of the invention

The purpose of the present invention is above mentioned problem be present for existing technology, it is proposed that a kind of connection knot for adjusting dual chamber Structure, and pressure measuring function is set, regulation cavity volume is moved with reference to dividing plate, realizes the improved boiler balance that the degree of balance is adjusted flexibly Container and its operation method.

The purpose of the present invention can be realized by following technical proposal：A kind of improved boiler equalizing reservoir, including cylinder, The inner barrel has liquid storage cylinder, sets dividing plate to be divided into upper chamber and lower chambers, the dividing plate in the liquid storage cylinder Upper setting communicating pipe, the communicating pipe are located in upper chamber, and the communicating pipe is connected by top opening with upper chamber, the communicating pipe Bottom run through dividing plate after connect by base opening with lower chambers, water inlet pipe is gone up in the setting of the top of the cylinder, under the cylinder Portion sets lower water inlet pipe, the upper water inlet pipe connection upper chamber, the lower water inlet pipe connection lower chambers；The sidepiece of the cylinder is set Pressure water pipe is set low, the low-pressure drainage pipe connects upper chamber, the first triple valve is set on the outer spout of the low-pressure drainage pipe, Two other valve port of first triple valve connects drainpipe, low pressure sensor respectively, and the bottom of the cylinder sets high pressure Drainpipe, the High Pressure Drain pipe connect lower chambers, set the second triple valve on the outer spout of the High Pressure Drain pipe, and described the Two other valve port of two triple valves connects drainpipe, high pressure sensor respectively, and the low pressure sensor and high pressure sensor are equal Controller is connected by circuit；Slide guide face is set on the inwall of the cylinder, and the periphery of the dividing plate, which is set, slides edge, the cunning The both sides on dynamic edge are pasted with sealing joint strip, and the outside of the cylinder sets drive mechanism, the drive mechanism connection it is above-mentioned every Plate, the drive mechanism connect controller noted above by circuit.

In this improved boiler equalizing reservoir, upper water inlet pipe connects with lower water inlet pipe with the inner chamber of boiler, makes in boiler Water pass through upper water inlet pipe and/or lower water inlet pipe and flow into cylinder.Utilize the cooperation of drive mechanism and Sliding Structures so that dividing plate It can be moved along the length direction of cylinder, and then change the volume of upper chamber and lower chambers, while change the height and position of communicating pipe, So that a set of equalizing reservoir can require according to the different size or difference of connection boiler, flexible modulation function is realized.

In above-mentioned improved boiler equalizing reservoir, the communicating pipe is telescoping tube, and the stage casing of the telescoping tube has Bellows piece, for the telescoping tube by lifting assembly drive connection, the lifting assembly connects the controller by circuit, described The rise extreme position of telescoping tube is less than the position of the upper water inlet pipe.By setting telescoping tube to realize, the length of communicating pipe is adjusted Section, the regulation of communicating pipe height is thus carried out in the case where partition position is motionless.

In above-mentioned improved boiler equalizing reservoir, the communicating pipe is telescoping tube, and the telescoping tube includes some sections The single-unit body being socketed successively, the telescoping tube is by lifting assembly drive connection, described in the lifting assembly is connected by circuit Controller, the rise extreme position of the telescoping tube are less than the position of the upper water inlet pipe.By setting telescoping tube to realize connection The length adjustment of pipe, the regulation of communicating pipe height is thus carried out in the case where partition position is motionless.

In above-mentioned improved boiler equalizing reservoir, the drive mechanism includes telescopic cylinder, the telescopic cylinder Telescopic shaft is connected gear frame, and the gear frame is connected the dividing plate by an at least drive link.

In above-mentioned improved boiler equalizing reservoir, the drive mechanism includes rotary electric machine, the rotary electric machine Output shaft connection reducer, gear, the wheel and rack engagement connection, the rack are arranged on the output shaft of the decelerator End be connected the dividing plate by drive link.

Upper limit block and lower limit gear are set in above-mentioned improved boiler equalizing reservoir, on the inwall of the cylinder Block, the upper limit block are located at the lower section of low-pressure drainage pipe, and the lower limit block is located at the top of lower water inlet pipe, it is described every The straight skidding stroke of plate is between upper limit block and lower limit block.Pass through the position of upper limit block and lower limit block Restriction is put, to determine the scope of activities of dividing plate, while change cavity volume and position height is realized, it is ensured that low-pressure drainage pipe Upper chamber is connected, lower water inlet pipe connects lower chambers.

In above-mentioned improved boiler equalizing reservoir, the cylinder includes cylindrical stack shell, the top of the stack shell Face sets upper end cover, and screw is set on the upper end cover, and the bottom surface of the stack shell sets bottom end cover, and the lower drainpipe is through upper State bottom end cover.

In above-mentioned improved boiler equalizing reservoir, the upper water inlet pipe on the mouth of pipe of lower water inlet pipe with being respectively provided with assembling Flange, the junction of the assembly flange are sticked sealing ring.It is real by water inlet pipe, lower water inlet pipe and boiler on assembly flange Now connection installation, and realized and be tightly connected using sealing ring.

The operation method of boiler equalizing reservoir, comprises the following steps：

1) specification and its degree of balance requirement of boiler, are connected according to this equalizing reservoir, driving machine is manipulated by controller Structure band dynamic dividing plate carries out lifting action, and to adjust the volume of suitable upper chamber and lower chambers, lifting group is manipulated by controller Part drives and elongated or shortened communicating pipe to appropriate height；

2), when water level is low in the inner chamber of boiler, water is flowed into lower chambers by lower water inlet pipe, then gradually within communicating pipe Rise, it is now anhydrous in upper chamber；

3) when, needing detection, opening the second triple valve makes high pressure sensor carry out high voltage sense, and sensing numerical value is sent To controller, once controller, which judges that pressure value is too low, just sends warning, staff is reminded to add water into boiler；

4) when, among water level in the inner chamber of boiler, water is flowed into lower chambers by lower water inlet pipe, then gradually in communicating pipe Interior rise by top opening until overflow into upper chamber；

5) when, needing detection, opening the first triple valve makes low pressure sensor carry out low pressure sensing, and sensing numerical value is sent To controller, opening the second triple valve makes high pressure sensor carry out high voltage sense, and sensing numerical value is sent to controller, passes through Controller records low voltage value and the dynamic of high-voltage value；

6), when water level is high in the inner chamber of boiler, water is flowed into lower chambers by lower water inlet pipe, then gradually within communicating pipe Rise by top opening until overflow into upper chamber；Water is flowed into upper chamber by upper water inlet pipe；

7) when, needing detection, opening the first triple valve makes low pressure sensor carry out low pressure sensing, and sensing numerical value is sent To controller, opening the second triple valve makes high pressure sensor carry out high voltage sense, and sensing numerical value is sent to controller, once Controller judges that pressure value is too high and just sends warning, reminds staff to open the first triple valve and is arranged with the second triple valve Water.

In above-mentioned operation method, the cross-sectional area of the communicating pipe and the cross-sectional area ratio of lower chambers are the ﹕ of 1 ﹕ 5~1 3。

Compared with prior art, this improved boiler equalizing reservoir and its operation method have advantages below：

1), by adjusting the connectivity structure of dual chamber, and load cell is set on the drainpipe of each chamber, thus existed High and low pressure monitoring is carried out under the different situations of water level, it is dynamic in record hydraulic pressure meanwhile, it is capable to effectively monitor that water level is too low or mistake High situation simultaneously carries out warning prompting.

2), by the removable dynamic characteristic of dividing plate, the adjustability that cylinder lumen separates is realized, thus only can pin with a set of equipment Different boiler types are carried out with corresponding adjustment, to adapt to required degree of balance requirement.

3) the features such as, present invention has simple in construction, and effect is precisely reliable, and flexible modulation degree is big, and applicability is extensive.

Brief description of the drawings

Fig. 1 is the internal structure schematic diagram of this improved boiler equalizing reservoir.

In figure, 1, screw；2nd, upper end cover；3rd, cylinder；4th, communicating pipe；5th, low-pressure drainage pipe；6th, upper water inlet pipe；7th, dividing plate； 8th, lower water inlet pipe；9th, bottom end cover；10th, High Pressure Drain pipe.

Embodiment

It is the specific embodiment of the present invention and with reference to accompanying drawing below, technical scheme is further described, But the present invention is not limited to these embodiments.

As shown in figure 1, this improved boiler equalizing reservoir, including cylinder 3, the inside of cylinder 3 has a liquid storage cylinder, in liquid storage cylinder Set dividing plate 7 to be divided into upper chamber and lower chambers, communicating pipe 4 is set on dividing plate 7, is located in upper chamber communicating pipe 4, is connected Pipe 4 is connected by top opening with upper chamber, and the bottom of communicating pipe 4 is connected after dividing plate 7 by base opening with lower chambers, cylinder 3 Top sets upper water inlet pipe 6, and the bottom of cylinder 3 sets lower water inlet pipe 8, and upper water inlet pipe 6 connects upper chamber, and lower water inlet pipe 8 connects Lower chambers；The sidepiece of cylinder 3 sets low-pressure drainage pipe 5, and low-pressure drainage pipe 5 connects upper chamber, on the outer spout of low-pressure drainage pipe 5 First triple valve is set, and two other valve port of the first triple valve connects drainpipe, low pressure sensor, the bottom of cylinder 3 respectively High Pressure Drain pipe 10 is set, High Pressure Drain pipe 10 connects lower chambers, the second triple valve is set on the outer spout of High Pressure Drain pipe 10, Two other valve port of second triple valve connects drainpipe, high pressure sensor respectively, and low pressure sensor and high pressure sensor are logical Oversampling circuit connects controller；Slide guide face is set on the inwall of cylinder 3, and the periphery of dividing plate 7, which is set, slides edge, and the both sides for sliding edge are equal Sealing joint strip is pasted with, the outside of cylinder 3 sets drive mechanism, and drive mechanism connecting partition 7, drive mechanism is connected by circuit Controller.

In this improved boiler equalizing reservoir, upper water inlet pipe 6 connects with lower water inlet pipe 8 with the inner chamber of boiler, makes boiler Interior water is flowed into cylinder 3 by upper water inlet pipe 6 and/or lower water inlet pipe 8.Using the cooperation of drive mechanism and Sliding Structures, make Obtaining dividing plate 7 can move along the length direction of cylinder 3, and then change the volume of upper chamber and lower chambers, while change communicating pipe 4 Height and position, so that a set of equalizing reservoir can require according to the different size or difference of connection boiler, realize flexible modulation work( Energy.

The structure of communicating pipe 4 has two kinds of embodiments：

Embodiment one：Communicating pipe 4 is telescoping tube, and the stage casing of telescoping tube has bellows piece, and telescoping tube is driven by lifting assembly Dynamic connection, lifting assembly connect controller by circuit, and the rise extreme position of telescoping tube is less than the position of upper water inlet pipe 6.It is logical The length adjustment for setting telescoping tube to realize communicating pipe 4 is crossed, the height of communicating pipe 4 is thus carried out in the case where the position of dividing plate 7 is motionless Regulation.

Embodiment two：Communicating pipe 4 is telescoping tube, and telescoping tube includes some single-unit bodys for saving and being socketed successively, telescoping tube by Lifting assembly drive connection, lifting assembly connect controller by circuit, and the rise extreme position of telescoping tube is less than upper water inlet pipe 6 Position.By setting telescoping tube to realize the length adjustment of communicating pipe 4, thus connected in the case where the position of dividing plate 7 is motionless The regulation of the height of siphunculus 4.

Drive mechanism has two kinds of embodiments：

Embodiment one：Drive mechanism includes telescopic cylinder, the connected gear frame of telescopic shaft of telescopic cylinder, and gear frame passes through extremely Few connected dividing plate 7 of a drive link.

Embodiment two：Drive mechanism includes rotary electric machine, the output shaft connection reducer of rotary electric machine, the output of decelerator It is arranged gear on axle, wheel and rack engagement connection, the end of rack is connected dividing plate 7 by drive link.

Upper limit block and lower limit block, upper limit block is set to be located under low-pressure drainage pipe 5 on the inwall of cylinder 3 Side, lower limit block are located at the top of lower water inlet pipe 8, and the straight skidding stroke of dividing plate 7 is located at upper limit block and lower limit gear Between block.By the position restriction of upper limit block and lower limit block, to determine the scope of activities of dividing plate 7, change realizing While cavity volume and position height, it is ensured that low-pressure drainage pipe 5 connects upper chamber, and lower water inlet pipe 8 connects lower chambers.

Cylinder 3 includes cylindrical stack shell, and the top surface of stack shell sets upper end cover 2, screw 1, stack shell are set on upper end cover 2 Bottom surface bottom end cover 9 is set, lower drainpipe runs through bottom end cover 9.

It is respectively provided with assembly flange on the mouth of pipe of upper water inlet pipe 6 and lower water inlet pipe 8, the junction of assembly flange is sticked sealing Circle.Realized by water inlet pipe on assembly flange 6, lower water inlet pipe 8 with boiler and connect installation, and sealing is realized using sealing ring Connection.

The operation method of boiler equalizing reservoir, comprises the following steps：

1) specification and its degree of balance requirement of boiler, are connected according to this equalizing reservoir, driving machine is manipulated by controller Structure band dynamic dividing plate 7 carries out lifting action, and to adjust the volume of suitable upper chamber and lower chambers, lifting group is manipulated by controller Part drives and elongated or shortened communicating pipe 4 to appropriate height；

2), when water level is low in the inner chamber of boiler, water is flowed into lower chambers by lower water inlet pipe 8, then gradually in communicating pipe 4 Interior rise, it is now anhydrous in upper chamber；

3) when, needing detection, opening the second triple valve makes high pressure sensor carry out high voltage sense, and sensing numerical value is sent To controller, once controller, which judges that pressure value is too low, just sends warning, staff is reminded to add water into boiler；

4) when, among water level in the inner chamber of boiler, water is flowed into lower chambers by lower water inlet pipe 8, is then gradually being connected Rise in pipe 4 by top opening until overflow into upper chamber；

5) when, needing detection, opening the first triple valve makes low pressure sensor carry out low pressure sensing, and sensing numerical value is sent To controller, opening the second triple valve makes high pressure sensor carry out high voltage sense, and sensing numerical value is sent to controller, passes through Controller records low voltage value and the dynamic of high-voltage value；

6), when water level is high in the inner chamber of boiler, water is flowed into lower chambers by lower water inlet pipe 8, then gradually in communicating pipe 4 Interior rise by top opening until overflow into upper chamber；Water is flowed into upper chamber by upper water inlet pipe 6；

7) when, needing detection, opening the first triple valve makes low pressure sensor carry out low pressure sensing, and sensing numerical value is sent To controller, opening the second triple valve makes high pressure sensor carry out high voltage sense, and sensing numerical value is sent to controller, once Controller judges that pressure value is too high and just sends warning, reminds staff to open the first triple valve and is arranged with the second triple valve Water.

The cross-sectional area of communicating pipe 4 and the cross-sectional area ratio of lower chambers are the ﹕ 3 of 1 ﹕ 5~1.

This improved boiler equalizing reservoir and its operation method have advantages below：

1), by adjusting the connectivity structure of dual chamber, and load cell is set on the drainpipe of each chamber, thus existed High and low pressure monitoring is carried out under the different situations of water level, it is dynamic in record hydraulic pressure meanwhile, it is capable to effectively monitor that water level is too low or mistake High situation simultaneously carries out warning prompting.

2), by the removable dynamic characteristic of dividing plate 7, the adjustability that the inner chamber of cylinder 3 separates is realized, thus only can with a set of equipment Corresponding adjustment is carried out for different boiler types, to adapt to required degree of balance requirement.

3) the features such as, present invention has simple in construction, and effect is precisely reliable, and flexible modulation degree is big, and applicability is extensive.

Specific embodiment described herein is only to spirit explanation for example of the invention.Technology belonging to the present invention is led The technical staff in domain can be made various modifications or supplement to described specific embodiment or be replaced using similar mode Generation, but without departing from the spiritual of the present invention or surmount scope defined in appended claims.

Although screw 1 has more been used herein；Upper end cover 2；Cylinder 3；Communicating pipe 4；Low-pressure drainage pipe 5；Upper water inlet pipe 6；Dividing plate 7；Lower water inlet pipe 8；Bottom end cover 9；The grade term of High Pressure Drain pipe 10, but it is not precluded from the possibility using other terms. It is used for the purpose of more easily describing and explaining the essence of the present invention using these terms；It is construed as any additional Limitation all disagreed with spirit of the present invention.

Claims (10)

1. a kind of improved boiler equalizing reservoir, including cylinder, it is characterised in that the inner barrel has liquid storage cylinder, described Set dividing plate to be divided into upper chamber and lower chambers in liquid storage cylinder, communicating pipe is set on the dividing plate, is located at the communicating pipe In upper chamber, the communicating pipe is connected by top opening with upper chamber, the bottom of the communicating pipe run through after dividing plate by base opening with Lower chambers connect, and the top of the cylinder sets upper water inlet pipe, and the bottom of the cylinder sets lower water inlet pipe, the upper water inlet pipe Connect upper chamber, the lower water inlet pipe connection lower chambers；The sidepiece of the cylinder sets low-pressure drainage pipe, the low-pressure drainage pipe Upper chamber is connected, the first triple valve, two other valve of first triple valve are set on the outer spout of the low-pressure drainage pipe Mouth connects drainpipe, low pressure sensor respectively, and the bottom of the cylinder sets High Pressure Drain pipe, under the High Pressure Drain pipe connection Chamber, the second triple valve, two other valve port difference of second triple valve are set on the outer spout of the High Pressure Drain pipe Drainpipe, high pressure sensor are connected, the low pressure sensor connects controller with high pressure sensor by circuit；The cylinder Inwall on slide guide face is set, the periphery of the dividing plate, which is set, slides edge, and the both sides for sliding edge are pasted with sealing joint strip, The outside of the cylinder sets drive mechanism, and the drive mechanism connects aforementioned barriers, and the drive mechanism is connected by circuit Controller noted above.

2. improved boiler equalizing reservoir according to claim 1, it is characterised in that the communicating pipe is telescoping tube, institute Stating the stage casing of telescoping tube has bellows piece, and the telescoping tube passes through circuit by lifting assembly drive connection, the lifting assembly The controller is connected, the rise extreme position of the telescoping tube is less than the position of the upper water inlet pipe.

3. improved boiler equalizing reservoir according to claim 1, it is characterised in that the communicating pipe is telescoping tube, institute Stating telescoping tube includes some single-unit bodys for saving and being socketed successively, and the telescoping tube is by lifting assembly drive connection, the lifting group Part connects the controller by circuit, and the rise extreme position of the telescoping tube is less than the position of the upper water inlet pipe.

4. improved boiler equalizing reservoir according to claim 1, it is characterised in that the drive mechanism includes flexible gas Cylinder, the telescopic shaft of the telescopic cylinder are connected gear frame, and the gear frame is connected the dividing plate by an at least drive link.

5. improved boiler equalizing reservoir according to claim 1, it is characterised in that the drive mechanism includes rotating electricity Machine, the output shaft connection reducer of the rotary electric machine, gear, the wheel and rack is arranged on the output shaft of the decelerator Engagement connection, the end of the rack are connected the dividing plate by drive link.

6. improved boiler equalizing reservoir according to claim 1, it is characterised in that on being set on the inwall of the cylinder Positive stop and lower limit block, the upper limit block is located at the lower section of low-pressure drainage pipe, under the lower limit block is located at The top of water inlet pipe, the straight skidding stroke of the dividing plate is between upper limit block and lower limit block.

7. improved boiler equalizing reservoir according to claim 1, it is characterised in that the cylinder includes cylindrical Stack shell, the top surface of the stack shell set upper end cover, and screw is set on the upper end cover, and the bottom surface of the stack shell sets bottom end cover, The lower drainpipe runs through above-mentioned bottom end cover.

8. improved boiler equalizing reservoir according to claim 1, it is characterised in that the upper water inlet pipe and lower water inlet pipe The mouth of pipe on be respectively provided with assembly flange, the junction of the assembly flange is sticked sealing ring.

9. using the operation method of boiler equalizing reservoir as claimed in claim 1, it is characterised in that comprise the following steps：

1) specification and its degree of balance requirement of boiler, are connected according to this equalizing reservoir, drive mechanism band is manipulated by controller Dynamic dividing plate carries out lifting action, and to adjust the volume of suitable upper chamber and lower chambers, lifting assembly band is manipulated by controller Elongate or shorten dynamic communicating pipe to appropriate height；

2), when water level is low in the inner chamber of boiler, water is flowed into lower chambers by lower water inlet pipe, is then gradually risen within communicating pipe Height, it is now anhydrous in upper chamber；

3) when, needing detection, opening the second triple valve makes high pressure sensor carry out high voltage sense, and sensing numerical value is sent to control Device processed, once controller, which judges that pressure value is too low, just sends warning, staff is reminded to add water into boiler；

4) when, among water level in the inner chamber of boiler, water is flowed into lower chambers by lower water inlet pipe, is then gradually risen within communicating pipe Height by top opening until overflow into upper chamber；

5) when, needing detection, opening the first triple valve makes low pressure sensor carry out low pressure sensing, and sensing numerical value is sent to control Device processed, opening the second triple valve makes high pressure sensor carry out high voltage sense, and sensing numerical value is sent to controller, passes through control Device records low voltage value and the dynamic of high-voltage value；

6), when water level is high in the inner chamber of boiler, water is flowed into lower chambers by lower water inlet pipe, is then gradually raised within communicating pipe Until upper chamber is overflowed into by top opening；Water is flowed into upper chamber by upper water inlet pipe；

7) when, needing detection, opening the first triple valve makes low pressure sensor carry out low pressure sensing, and sensing numerical value is sent to control Device processed, opening the second triple valve makes high pressure sensor carry out high voltage sense, and sensing numerical value is sent to controller, once control Device judges that pressure value is too high and just sends warning, reminds staff to open the first triple valve and the progress draining of the second triple valve.

10. operation method according to claim 9, it is characterised in that the cross-sectional area of the communicating pipe and lower chambers Cross-sectional area ratio is the ﹕ 3 of 1 ﹕ 5~1.