IES86677B2 - Boiler for concentrates preparation device - Google Patents
Boiler for concentrates preparation device Download PDFInfo
- Publication number
- IES86677B2 IES86677B2 IES20150261A IES20150261A IES86677B2 IE S86677 B2 IES86677 B2 IE S86677B2 IE S20150261 A IES20150261 A IE S20150261A IE S20150261 A IES20150261 A IE S20150261A IE S86677 B2 IES86677 B2 IE S86677B2
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- Prior art keywords
- boiler
- confluence
- chamber
- sampling
- cover body
- Prior art date
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D1/00—Evaporating
- B01D1/30—Accessories for evaporators ; Constructional details thereof
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D3/00—Distillation or related exchange processes in which liquids are contacted with gaseous media, e.g. stripping
- B01D3/02—Distillation or related exchange processes in which liquids are contacted with gaseous media, e.g. stripping in boilers or stills
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D5/00—Condensation of vapours; Recovering volatile solvents by condensation
- B01D5/0057—Condensation of vapours; Recovering volatile solvents by condensation in combination with other processes
- B01D5/006—Condensation of vapours; Recovering volatile solvents by condensation in combination with other processes with evaporation or distillation
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N1/00—Sampling; Preparing specimens for investigation
- G01N1/02—Devices for withdrawing samples
- G01N1/10—Devices for withdrawing samples in the liquid or fluent state
- G01N1/20—Devices for withdrawing samples in the liquid or fluent state for flowing or falling materials
- G01N1/2035—Devices for withdrawing samples in the liquid or fluent state for flowing or falling materials by deviating part of a fluid stream, e.g. by drawing-off or tapping
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N1/00—Sampling; Preparing specimens for investigation
- G01N1/02—Devices for withdrawing samples
- G01N1/10—Devices for withdrawing samples in the liquid or fluent state
- G01N1/20—Devices for withdrawing samples in the liquid or fluent state for flowing or falling materials
- G01N1/2035—Devices for withdrawing samples in the liquid or fluent state for flowing or falling materials by deviating part of a fluid stream, e.g. by drawing-off or tapping
- G01N2001/205—Devices for withdrawing samples in the liquid or fluent state for flowing or falling materials by deviating part of a fluid stream, e.g. by drawing-off or tapping using a valve
- G01N2001/2057—Sample chamber in a valve/piston
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- Chemical & Material Sciences (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Life Sciences & Earth Sciences (AREA)
- Hydrology & Water Resources (AREA)
- Physics & Mathematics (AREA)
- Health & Medical Sciences (AREA)
- Analytical Chemistry (AREA)
- Biochemistry (AREA)
- General Health & Medical Sciences (AREA)
- General Physics & Mathematics (AREA)
- Immunology (AREA)
- Pathology (AREA)
- Sampling And Sample Adjustment (AREA)
Abstract
The invention relates to a boiler for concentrates preparation device using low pressure and low boiling point. The boiler comprises a sealing structure and at the bottom portion thereof is provided with a feeding opening, a discharging opening and a heating unit; the sidewall of the boiler near to the bottom portion is provided with a sampling unit, the upper cover of the boiler is provided with a condensing unit; the collecting portion includes a bar confluence rod fitting well with the interior crow surface of the cover body and a confluence ring fitting well with the interior circumferential surface of the cover body, the confluence ring and the cover body forms a confluence chamber, the cooling portion includes a plurality of coaxial ring like sheets, a water inlet duct is arranged to the top ring, a water outlet duct is arranged to the bottom ring. The device of the invention has good reliability and high efficiency. <Figure 2>
Description
Boiler for concentrates preparation device
Field of the Invention
The invention relates to a concentrates preparation device, especially to a boiler for the concentrates preparation device using low pressure and low 5 boiling point.
Description of prior art
The boiling point of water decreases with the pressure, so water can be boiling with low temperature under low pressure, the boiling water changes io liquid water into water vapor, mist water vapor condenses on the interface between cool and hot, a lot of mist collects together to form water drop, and a lot of water drop collects together to form water flow, whether we can use the above principle to lower the moisture content of the mixture so as to increase the concentration.
Summary of the present invention
The object of the invention is to provide a boiler for the concentrates preparation device so as to solve the above problem.
Therefore, the invention provide a boiler for the concentrates preparation device, the boiler comprises a sealing structure, and at the bottom portion thereof is provided with a feeding opening, a discharging opening and a heating unit; the sidewall of the boiler near to the bottom portion is provided with a sampling unit, the upper cover of the boiler is provided with a condensing unit.
2/22
Specifically, inside the upper cover is provided with a collecting portion of the condensing unit, the collecting portion includes a bar confluence rod fitting well with the interior crow surface of the cover body and a confluence ring fitting well with the interior circumferential surface of the cover body. The opening of the confluence ring is toward the top portion of the cover body; the confluence ring and the cover body defines a confluence chamber, the tail end of the bar confluence rod extends to the confluence chamber communicated with the outside through the output duct. The bar confluence rod is provided with an abutment surface 10 corresponding to the interior crow surface of the cover body, two first arcuate surfaces opposed invagination are symmetrically arranged to the two side surfaces vertical to the abutment surface, two second arcuate surfaces opposed invagination are arranged to the top surface parallel to the abutment surface, between the first and second arcuate surfaces forms is an overflow prevention edge, the bar confluence rod near to the top end thereof is provided with a first slope and a second slope, the angle made with the first and second slopes is an obtuse angle, the second slope slopes from the top end of the bar confluence rod to the abutment surface, the first slope slopes from the top end of the bar confluence rod to the 20 abutment surface, the second arcuate surface extends to the second slope, the first arcuate surface extends to the first slope.
Single-side section of the confluence ring is a form of letter L, the bottom edge of the L is vertical to the interior circumferential surface of the upper cover, the vertical edge of the L is parallel to the interior surface of the 25 upper cover. The cooling portion of the cooling unit is located outside the upper cover, the cooling portion has a plurality of the ringlike sheets coaxial with one another, the ringlike sheet is arranged along the crow surface of
3/22 the cover body, the axis of the ringlike sheet is coaxial with the axis of the cover body, the bottom portion of the ringlike sheet fits well with the exterior crow surface ofthe cover body, the top and bottom portions ofthe condensing unit are respectively provided with a water inlet duct and a 5 water outlet duct.
Specifically, the sampling unit is provided with a base body, a movable rod, a limiting pin, a sampling chamber, a sampling bore, an axle sleeve and an isobaric chamber; the sampling chamber passes through the upper and 10 lower surfaces of the base body, the isobaric chamber is a cylindrical blind bore, the isobaric chamber passes through the front surface of the base body and passes through the front and back surfaces of the sampling chamber. The axle sleeve has an interference fitting with the isobaric chamber, the movable rod hermetically slidingly mates with the axle sleeve, is the limiting pin is fastened on the movable rod, the limiting pin mates with the front surface or the back surface of the sampling chamber, inside the base body is provided with a gas permeable passage, of which the head and tail ends respectively communicate with the isobaric chamber and the outside.
Specifically, the interior duct opening of the output duct is near to the bottom portion ofthe confluence chamber and far below the top end of the vertical edge of the L, the bottom portion of the water inlet duct is fixedly connected with the top portion ofthe cover body, the bottom portion of the 25 water input duct is provided with a plurality of water outlet openings.
Specifically, the distance from the top portion of the ringlike sheet to the
4/22 bottom surface of the cover body is tapering such as to decrease with increasing self diameter.
Profitably, the movable rod is at the withdraw position and the sampling 5 bore is outside the base body when the limiting pin mates with the front surface of the sampling chamber; the movable rod is at the insertion position and the sampling bore is inside the sampling chamber when the limiting pin mates with the back surface of the sampling chamber.
Profitably, the gas permeable passage extends to the front surface of the base body, the sampling chamber of the sampling unit is inside the boiler, the handle is outside the boiler.
Advantageous Effects is When the sampling unit takes samples of concentrates from the boiler, it is no necessary to stop concentration process or to open the upper cover of the boiler. Concentrates in the boiler can be taken out through the sampling bore of the sampling unit, the movable rod can take samples freely with the help of gas permeable passage for keeping the pressure balance of ends of 20 the movable rod.
The cooling portion of the condensing unit consists of a plurality of ring like sheets arranged coaxially and step-shaped, such arrangement enlarges the connecting area between the upper cover of the boiler and the cooling 25 liquid so as to increase the cooling efficiency.
The first and second arcuate surfaces arranged to the bar confluence rod
/22 enlarge the interface between hot and cool so as to incarese the condensing efficiency.
The overflow prevention edge arranged to the bar confluence rod makes 5 condensed water drop slide along the first and second arcuate surfaces into the confluence chamber so as to prevent condensed water drop directly from dropping into the concentrates, such that the density of concentrates is reduced.
Brief description of the drawing
In the following, the invention will be described in greater detail by means of some embodiments with reference to the accompanying drawings, in which
Fig.l is a 3d-drawing of the concentrates preparation device;
is Fig.2 is a 3d-drawing of the boiler in Fig.l;
Fig.3 is an exploded 3d-drawing of the boiler;
Fig.4 is a 3d-drawing of the boiler without the upper cover in Fig.3;
Fig.5 is a top view of the upper cover of the boiler in Fig.3;
Fig.6 is a 3d-drawing of the upper cover in Fig.5;
Fig.7 is a 3d-drawing of the upper cover from another view angle in Fig.5;
Fig.8 is an exploded 3d-drawing of the upper cover in Fig.5;
Fig.9 is a sectional view of Fig.5 along A-A direction;
Fig.10 is a sectional view of Fig.5 along B-B direction;
Fig.ll is a detailed view of the part I in Fig. 12;
Fig.12 is a 3d-drawing of a single bar confluence rod in Fig.8;
Fig.13 is a detailed view of the part II in Fig. 12;
Fig.14-18 are 3d-drawings of the sampling unit in Fig.3, wherein the
6/22 movable rod is at different positions;
Fig.19 is an exploded 3d-drawing of the sampling unit in Fig.3;
Fig.20 is a sectional 3d-drawing of the sampling unit in Fig.3;
Fig.21- 23 are sectional front views of the sampling unit, wherein the 5 movable rod is at different position;
Fig.24 is a sectional 3d-drawing of the accumulator unit in Fig.l;
Fig.25 is a detailed view of the accumulator unit in Fig.24;
Fig.26 is an exploded 3d-drawing of the second and third water valves in
Fig.25.
1. the boiler; 11. the upper cover; 12. the heating unit;
13. the sidewall; 14. the sampling unit; 15. the feeding opening;
16. the discharging opening;.1101. the cover body;
1102. the confluence ring; 1103. the bar confluence rod;
1104. the ring like sheet; 1105. the output duct;
is 1106. the water inlet duct; 1107. the water outlet duct;
1108. the gas inlet duct; 1109. the water outlet opening;
1103a. the abutment surface; 1103b. the first arcuate surface;
1103c. the second arcuate surface;
1103d. the overflow prevention edge; 1103e. the second slope;
1103f. the first slope; 1103g. the third slope; 1401. the base body;
1402. the limiting pin; 1403. the movable rod;
1404. the sampling bore; 1405. the sampling chamber;
1406. the handle; 1407. the shaft sleeve;
1408. the gas permeable passage; 1409. the isobaric chamber;
2. the accumulator unit; 20. the connecting block;
21. the barrel; 22. the fourth water valve; 23. the third water valve;
24. the second water valve; 25. the first water valve;
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26. the water level tagging pipe; 27. the fourth duct;
28. the third duct; 29. the second duct; 210. the first duct;
201. the circular shaft; 3. the cooling unit;
4. the depressurization unit.
Detailed description of the preferred embodiment
In order to distinguish between the interior duct opening and the exterior duct opening, the duct opening which is inside the container is called the interior duct opening, the duct opening which is outside the container is io called the exterior duct opening.
Referring to Fig.l, it is a concentrates preparation device of the invention, the device comprises a boiler l,an accumulator unit 2, a cooling unit 3 and a depressurization unit 4; the output duct 1105 of the confluence chamber of is the boiler 1 communicates with the second water valve 24 of the accumulator unit 2, the water outlet duct 1107 of the cooling portion of the boiler 1 communicates with the input end of the cooling unit 3 through the water valve, the water inlet duct 1106 of the cooling portion of the boiler 1 communicates with the output end of the cooling unit 3 through the water 20 valve, the third water valve 23 of the accumulator unit 2 communicates with the input end of the depressurization unit 4 through the duct, the first and fourth water valves 25,22 of the accumulator unit 2 communicate with the outside.
Referring to Fig.2-4, the sidewall 13 near to the bottom portion of the boiler 1 is provided with a sampling unit 14, the upper cover 11 of the boiler 1 is provided with a condensing unit, the boiler 1 has a sealing structure, a
8/22 feeding opening 15, a discharging opening 16 and a heating unit 12 are arranged to the bottom portion ofthe boiler 1.
Referring to Fig.5, 6, 9 ,10, the cooling portion of the condensing unit is 5 located outside the upper cover 11, the cooling portion includes a plurality of ring like sheets 1104 arranged coaxially, and the ring like sheet 1104 are arranged along the crow surface of the cover body 1101, the axis of the ring like sheet 1104 is coaxial with the axis of the cover body 1101, the bottom portion of the ring like sheet 1104 fits well with the exterior crow surface of io the cover body 1101, the distance from the top portion of the ring like sheet 1104 to the bottom surface of the cover body 1101 is tapering such as to decrease with increasing self diameter. The top ring of the ring like sheet 1104 is provided with a water inlet duct 1106, of which the bottom portion fixedly connects with the top portion of the cover body 1101, the bottom is portion of the water inlet duct 1106 is provided with a plurality of water outlet openings 1109; the bottom ring ofthe ring like sheet 1104 is provided with a water outlet duct 1107, water with low temperature flows into the top ring through the water inlet duct 1106, water overflows into the next ring below the top ring when the top ring is full of water with low 20 temperature, water with low temperature sequentially fills the rings one after one, finally water goes out of the water outlet duct 1107 of the bottom ring, obviously, the temperature of the top ring is higher than the temperature ofthe bottom ring.
Referring to Fig.7, 8, 9, 10, the collecting portion of the condensing unit is located inside the upper cover 11, the collecting portion includes a bar confluence rod 1103 fitting well with the interior crow surface of the cover
9/22 body 1101 and a confluence ring 1102 fitting well with the interior circumferential surface of the cover body 1101, the opeing of the confluence ring 1102 is toward the top portion of the cover body 1101, the confluence ring 1102 and the cover body 1101 form a confluence chamber, s the tail end of the bar confluence rod 1103 extends into the confluence chamber, the single section of the confluence ring 1102 is a form of letter L, the bottom edge of the L is vertical to the interior circumferential surface of the upper cover 11, the vertical edge of the L is parallel to the interior circumferential surface of the upper cover 11, the confluence io chamber communicates with the outside through the output duct 1105, of which the interior duct opening is near to the bottom portion of the confluence chamber and far below the top portion of the vertical edge of the L.
is Referring to Fig.ll, 12, 13, the bar confluence rod 1103 is provided with an abutment surface 1103a corresponding to the interior crow surface of the cover body 1101, two first arcuate surfaces 1103b opposed invagination are symmetrically arranged to the two side surfaces vertical to the abutment surface 1103a, two second arcuate surfaces 1103c opposed invagination are 20 arranged to the top surface parallel to the abutment surface 1103a, between the first and second arcuate surfaces 1103b, 1103c forms an overflow prevention edge 1103d, the bar confluence rod 1103 near to the top end thereof is provided with a first slope 1103f and a second slope 1103e, the angle made with the first and second slopes is an obtuse angle, 25 the second slope 1103e slopes from the top end of the bar confluence rod
1103 to the abutment surface 1103a, the first slope 1103f slopes from the top end of the bar confluence rod 1103 to the abutment surface 1103a, the
/22 second arcuate surface 1103c extends to the second slope 1103e, the first arcuate surface 1103b extends to the first slope 1103f. Two third slopes 1103g are symmetrically arranged to the end near to the first slope 1103f of the bar confluence rod 1103, the third slope 1103g make the end near to 5 the first slope 1103f of the bar confluence rod 1103 form a sharp corner, a plurality of bar confluence rods are arranged in a circle around the sharp corner by such arrangement that the third slopes 1103g close up by face to face.
io Hot water steam in the boiler 1 condenses into water drop when hot steam touches the cool first or second arcuate surfaces 1103b, 1103c of the bar confluence rod 1103, water drop slides into the confluence chamber along the first or second arcuate surfaces 1103b, 1103c of the bar confluence rod 1103 under the cooperation between the overflow prevention edge 1103d is and the surface tension of the water drop, water dorp collects together in the confluence chamber and then goes out of the confluence chamber through the output duct 1105.
Referring to Fig.19, 20, the sampling unit 14 includes a base body 1401, a 20 movable rod 1403, a limiting pin 1402, a sampling chamber 1405, a sampling bore 1404, a shaft sleeve 1407 and an isobaric chamber 1409.
Referring to Fig.21, the sampling chamber 1405 goes through the upper and lower surfaces of the base body 1401, the isobaric chamber 1409 is a 25 cylindrical blind bore, the isobaric chamber 1409 passes through the front surface of the base body 1401 and through the front and back surfaces of the sampling chamber 1405; the shaft sleeve 1407 has an interference
11/22 fitting with the isobaric chamber 1409, the movable rod 1403 hermetically slidingly mates with the axle sleeve 1407, the limiting pin 1402 is fastened on the movable rod 1403, the limiting pin 1402 mates with the front surface or the back surface of the sampling chamber 1405. The movable rod 1403 is s at the withdraw position and the sampling bore (1404) is outside the base body 1401 when the limiting pin 1402 mates with the front surface of the sampling chamber 1405; the movable rod 1403 is at the insertion position and the sampling bore 1404 is inside the sampling chamber 1405 when the limiting pin 1402 mates with the back surface of the sampling chamber io 1405, referring to Fig.14,15.
Referring to Fig.2O, inside the base body 1401 is provided with a gas permeable passage 1408, of which the head and tail ends respectively communicate with the isobaric chamber 1409 and the outside atmosphere, is the air permeable passage 1408 extends to the front surface of the base body 1401, air pressure of the isobaric chamber 1409 is equal to the outside air pressure with the help of the gas permeable passage 1408 so as to make the movable rod 1403 moves more flexibly. The movable rod 1403 near to the front surface of the base body 1401 is provided with a handle 1406, of 20 which the diameter is greater than the interior diameter of the shaft sleeve 1407, the sampling chamber 1405 of the sampling unit 14 is inside the boiler 1, the handle 1406 is outside the boiler 1.
Referring to Fig.24, 25, the accumulator unit 2 is provided with a barrel 21, a 25 first duct 210, a second duct 29, a third duct 29, a fourth duct 27, a first water valve 25, a second water valve 24, a third water valve 23, a fourth water valve 22 and a water level tagging pipe 26. The barrel 21
12/22 communicates with the outside through the first, second, third, and fourth ducts 210,29,28,27; the first, second, third, and fourth ducts 210,29,28,27 are switched between opening and closing respectively through the first, second, third and fourth water valves 25,24,23,22; the first duct 210 is 5 located near to the bottom portion of the barrel 21, the interior duct opening of the second duct 29 is near to the bottom portion of the barrel (21) and above the interior duct opening of the first duct 210, the interior duct openings of the third and fourth ducts 28, 27 are near to the top portion of the barrel 21.
io
Referring to Fig.26, the second and third water valves have synchronous action, which is achieved by such arrangement, the connecting block 20 with a contour corresponding to the handle of the water valve is respectively provided with a through hole at each end of the head and tail is ends, the handle of the water valve at the respective position is provided with a through hole, the connecting block 20 is configured between the two handles of the water valve, two circular shafts 201 connects the handle with the connecting block 20, and then circular shaft 201,the handle and the connecting block 20 are fastened together by retaining ring.
The concentrates preparation device of the invention includes a depressurization process, a condensing process, an accumulating process, a draining process and a sampling process.
Depressurization process
Switching off the first, fourth and sixth water valves 25, 22, switching on the second, third, fifth, seventh, eighth and ninth water valves 24,23. Turning on
13/22 the depressurization unit 4 to make the air in the boiler 1 pass sequentially through the fifth, second, third and ninth water valves 24, 23 into the depressurization unit 4 so as to decrease the air pressure in the boiler 1.
Condensing process
Turning on the cooling unit 3 to make cooling liquid thereof loop sequentially through the seventh water valve, the top ring, the bottom ring and the eighth water valve, the temperature of the top cover of the boiler 1 is less than the temperature of the hot steam in the boiler 1 with the help of io cooling liquid. Turning on the heating unit 12 in the boiler 1 to increase the temperature of the mixture therein, the boiling point of water in the mixture is decreased under the low air pressure in the boiler 1, so the water can be boiling at low temperature to produce hot steam, which condenses into water drop when touches the bar confluence rod 1103 with lower is temperature with respect to hot steam, water drop slides into the confluence chamber along the first or second arcuate surface 1103b, 1103c with the help of cooperation between overflow prevention edge 1103d and surface tension of water drop, the confluence chamber collects water drop slid from the bar confluence rod 1103. Through the condensing process, 20 water in the mixture in the boiler 1 is continuously transferred into the confluence chamber so as to decrease the content of water in the mixture.
Accumulating process
When water level in the confluence chamber is over the interior duct 25 opening of the output duct 1105, through which water is drained into the accumulator unit 2, water passes sequentially through the fifth water valve and the second water valve 24, there are three conditions in the
14/22 accumulating process: 1. the air pressure in the boiler 1 is greater than the air pressure in the accumulator unit 2; 2. the air pressure in the boiler 1 is equal to the air pressure in the accumulator unit 2; 3. the air pressure in the boiler 1 is less than the air pressure in the accumulator 2.
When in condition 1, water in the confluence chamber is compressed into the accumulator unit 2 by the air pressure.
When in condition 2, water in the confluence chamber flows into the accumulator unit 2 under the gravity force, because the confluence chamber is above the accumulator unit.
io When in condition 3, turning on the depressurization unit 4 to decrease the air pressure in the accumulator unit 2 and make it less than the air pressure in the boiler 1, such that the condition 3 is changed to condition 1 or condition 2; the accumulator unit 2 accumulates water through above three methods.
Because the heating unit 12 in the boiler 1 is heating, the temperature in the bolier is greater than the temperature in the accumulator unit 2, so the air pressure in the boiler 1 is greater than the air pressure in the accumulator unit 2, thus, heating is good for condition 1.
When the density of the concentrates reaches the predetermined-density, the heating unit 12 stops heating, the air pressure in the boiler 1 is decreased, turning on the depressurization unit 4 for avoiding that the air pressure in the boiler 1 is less than the air pressure in the accumulator unit 25 2, the air pressure in the accumulator unit 2 is less than the air pressure in the boiler 1 through the depressurization unit 4 so as to compress the water condensed from the rest steam into accumulator unit 2. Because the water
/22 level in the confluence chamber is above the interior duct opening of the output duct 1105, steam in the boiler 1 do not directly pass into the accumulator unit 2 so as to reduce bad impact from steam to the depressurization unit 4; because the interior duct opening of the second 5 duct 29 is near to the bottom portion of the barrel 21, and the interior duct opening of the third duct 28 is near to the top portion of the barrel 21, it is avoided that water compressed out of the second duct 29 is immediately inlaled into the third duct 28 when the depressurization unit 4 works, such arrangement that the interior duct opening is arrange to the top portion of io the barrel 21 can reduce the risk of water in the barrel 21 passing into the third duct 28.
Draining process
When the water level tagging pipe 26 displays that the water level reaches is the predetermined-density, the second water valve 24 is turn25 off firstly, because the second water valve 24 acts together with the third water valve 23 through the connecting block 24, the third water valve 23 is turned off when the second water valve 24 is turned off, from then on, water condensed in the boiler 1 is stored by the confluence chamber provisionally, 20 the accumulator unit 2 is isolated from the boiler after the second and third water valves 24,23 are switched off; the fourth water valve 22 is switched on for an equal air pressure between the accumulator unit 2 and the outside atmosphere, the first water valve 25 is switched after achieving the equal air pressure, water in the accumulator unit 2 flows out from the first 25 water valve 25 due to the gravity force, the draining of accumulator unit 2 is achieved.
After water in the accumulator unit 2 is drained off, the first and fourth
16/22 water valves 25,22 are turned off firstly so as to isolate the accumulator unit 2 from the outside atmosphere, after that, the second water valve 24 is turned on secondly, meanwhile the third water valve 23 is turned on too, because the air pressure in the accumulator unit 2 is greater than the air pressure in the boiler 1, water in the duct is compressed back to the boiler 1 at the time when the second and third water valves 24,23 are turned on, water is kept in the confluence chamber rather than flows into the concentrates due to the buffering effect of the confluence chamber. When the air pressure in the accumulator unit 2 is equal to the air pressure in the io boiler 1, condensed water provisionally stored in the confluence chamber flows to the accumulator unit 2 under the gravity force. The depressurization unit 4 is switched on for keeping a low air pressure condition in the boiler 1 so as to keep the air pressure at a predetermined-density, switching on the depressurization unit 4 speeds up is water in the confluence chamber flowing to the accumulator unit 2.
Sampling process
Referring to Fig.21,22,23, the sampling unit 14 takes samples of concentrates in the boiler 1 during the concentrating process to make 20 concentration detection of samples. In order to increase detecting accuracy, the handle 1406 is rotated fastly before sampling, referring to Fig.18, the remnant sample left in the sampling bore 1404 is thrown out due to the centrifugal force, then the sampling bore is upwards with the help of the direction mark on the handle 1406; the movable rod 1403 is drawn out to the withdraw position after the sampling bore 1404 is full of concentrates, detector detects the concentration of the sample in the sampling bore, or detector detects the concentration of the sample in the glassware dropped
17/22 from the sampling bore due to the gravity force after rotating the movable rod 1403 to make the sampling bore 1404 be downwards. The movable rod 1403 is pushed back to the insertion position after sampling process.
After the density of concentrates in the boiler 1 reaches the predetermined-density, the heating unit 12, the depressurization unit 14, the fifth water valve and the sixth water valve are switched off firstly, air from the outside goes into the boiler 1 through the gas inlet duct 1108 so as to make the air pressure in the boiler 1 be equal to the outside air pressure, io the present air pressure in the boiler 1 is greater than the beginning of concentrating, the boiling point of water in the concentrates increases accordingly. Because the heating unit 12 is turned off, water in the concentrates do not boil any long, the concentrates do not loose water any more, that is the present density is kept.
is Opening the discharging opening 16 to let the prepared concentrates flow out from the discharging opening 16, which is switched off after the concentrates is drained off. Opening the feeding opening 15 to let the mixture unconcentrated flow into the boiler 1, the feeding opening 15 is switched off when the mixture reaches the predetermined-density to 20 isolate air in the boiler 1 from the outside atmosphere for the next concentrating process.
Obviously, water in the accumulator unit 2 can be drained out during the boiler 1 is inputting mixture or outputting contracts. The detailed process is 25 that, the ninth water valve is switched off firstly, then the sixth water valve is switched on, due to the pressure difference water in the confluence chamber is compressed to the accumulator unit 2; after the air pressure in
18/22 the accumulator unit 2 and in the boiler 1 is equal to the air pressure ofthe outside atmosphere, water in the confluence chamber flows to the accumulator unit 2 under the gravity force, meanwhile the first water valve 25 is switched on for draining of water from the accumulator unit 2.
The depressurization unit 4 is an air extracting pump or a vacuum pump.
The cooling unit 3 is provided with an input end and an output end, the cooling liquid flows into the cooling unit 3 from the input end, the cooling fin of the cooling unit 3 takes heat away from the cooling liquid into the io atmosphere so as to make the temperature of the cooling liquid from the output end of the cooling unit 3 cooler than the temperature of the cooling liquid from the input end ofthe cooling unit 3.
Claims (5)
1. A boiler for the concentrates preparation device, comprising a sealing structure, and at the bottom portion thereof provided with a feeding opening (15), a discharging opening (16) and a heating unit (12); characterized in that 5 the sidewall (13) of the boiler (1) near to the bottom portion is provided with a sampling unit (14), the upper cover (11) of the boiler (1) provided with a condensing unit, inside the upper cover (11) provided with a collecting portion of the condensing unit, the collecting portion including a bar confluence rod (1103) fitting well with the interior crow surface of the io cover body (1101), a confluence ring (1102) fitting well with the interior circumferential surface of the cover body (1101), the opening of the confluence ring (1102) toward the top portion of the cover body (1101), the confluence ring (1102) and the cover body (1101) defining a confluence chamber, the tail end of the bar confluence rod (1103) extending to the 15 confluence chamber communicated with the outside through the output duct (1105); the cooling portion of the cooling unit (3) located outside the upper cover (11), the cooling portion having a plurality of the ringlike sheets (1104) coaxial with one another, the ringlike sheet (1104) arranged along 20 the crow surface of the cover body (1101), the axis of the ringlike sheet (1104) coaxial with the axis of the cover body (1101), the bottom portion of the ringlike sheet (1104) fitting well with the exterior crow surface of the cover body (1101), the top and bottom portions of the condensing unit respectively provided with a water inlet duct (1106) and a water outlet duct 25 (1107); the sampling unit (14) provided with a base body (1401), a 20/22 movable rod (1403), a limiting pin (1402), a sampling chamber (1405), a sampling bore (1404), an axle sleeve (1407) and an isobaric chamber (1409); the sampling chamber (1405) passing through the upper and lower surfaces of the base body (1401), the isobaric chamber (1409) being a cylindrical s blind bore, the isobaric chamber (1409) passing through the front surface of the base body (1401) and passing through the front and back surfaces of the sampling chamber (1405); the axle sleeve (1407) having an interference fitting with the isobaric chamber (1409), the movable rod (1403) hermetically slidingly io matting with the axle sleeve (1407), the limiting pin (1402) fastened on the movable rod (1403), the limiting pin (1402) matting with the front surface or the back surface of the sampling chamber (1405), inside the base body (1401) provided with a gas permeable passage (1408), of which the head and tail ends respectively communicating with the isobaric chamber (1409) is and the outside atmosphere.
2. A boiler for the concentrates preparation device according to claim 1, characterized in that the bar confluence rod (1103) is provided with an abutment 20 surface (1103a) corresponding to the interior crow surface of the cover body (1101), a first arcuate surface (1103b) opposed invagination symmetrically arranged to the two side surfaces vertical to the abutment surface (1103a), a second arcuate surface (1103c) opposed invagination arranged to the top surface parallel to the abutment surface (1103a), 25 between the first and second arcuate surfaces (1103b,1103c) forming an overflow prevention edge (1103d), the bar confluence rod (1103) near to the top end thereof provided with a first slope (1103f) and a second slope 21/22 (1103e), the angle made with the first and second slopes (1103f,1103e) being an obtuse angle, the second slope (1103e) sloping from the top end of the bar confluence rod (1103) to the abutment surface (1103a), the first slope (1103f) sloping from the top end of the bar confluence rod (1103) to 5 the abutment surface (1103a), the second arcuate surface (1103c) extending to the second slope (1103e), the first arcuate surface (1103b) extending to the first slope (1103f).
3. A boiler for the concentrates preparation device according to claim io 1, characterized in that single-side section of the confluence ring (1102) is a form of letter L, the bottom edge of the L vertical to the interior circumferential surface of the upper cover (11), the vertical edge of the L parallel to the interior surface of the upper cover (11).
4. A boiler for the concentrates preparation device according to claim 1, characterized in that the interior duct opening of the output duct (1105) is near to the bottom portion of the confluence chamber and far below the top end of the 20 vertical edge of the L, the bottom portion of the water inlet duct (1106) fixedly connected with the top portion of the cover body (1101), the bottom portion of the water input duct (1106) provided with a plurality of water outlet openings (1109). 25
5. A boiler for the concentrates preparation device according to claim 1, characterized in that the distance from the top portion of the ringlike sheet (1104) to 22/22 the bottom surface of the cover body (1101) is tapering such as to decrease with increasing self diameter; the movable rod (1403) is at the withdraw position and the sampling bore (1404) is outside the base body (1401) when the limiting pin 5 (1402) mates with the front surface of the sampling chamber (1405); the movable rod (1403) being at the insertion position and the sampling bore (1404) being inside the sampling chamber (1405) when the limiting pin (1402) mates with the back surface of the sampling chamber (1405); the gas permeable passage (1408) extends to the front surface of io the base body (1401), the sampling chamber (1405) ofthe sampling unit (14) being inside the boiler, the handle {1406) being outside the boiler.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201410706722.9A CN104399269B (en) | 2014-11-28 | 2014-11-28 | Prepare the boiler of concentrate |
Publications (2)
Publication Number | Publication Date |
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IES20150261A2 IES20150261A2 (en) | 2016-06-01 |
IES86677B2 true IES86677B2 (en) | 2016-07-27 |
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Family Applications (2)
Application Number | Title | Priority Date | Filing Date |
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IES20150261A IES86677B2 (en) | 2014-11-28 | 2015-08-11 | Boiler for concentrates preparation device |
IE20150228A IE86848B1 (en) | 2014-11-28 | 2015-08-11 | Boiler for concentrates preparation device |
Family Applications After (1)
Application Number | Title | Priority Date | Filing Date |
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IE20150228A IE86848B1 (en) | 2014-11-28 | 2015-08-11 | Boiler for concentrates preparation device |
Country Status (4)
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CN (1) | CN104399269B (en) |
AU (2) | AU2015100495A4 (en) |
GB (1) | GB2536759B (en) |
IE (2) | IES86677B2 (en) |
Families Citing this family (11)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105277388B (en) * | 2015-11-29 | 2017-12-12 | 龚柱 | Boiler of quick sample |
CN105241689B (en) * | 2015-11-29 | 2017-12-08 | 龚柱 | The boiler of fast sampling |
CN105277387B (en) * | 2015-11-29 | 2017-12-08 | 龚柱 | The design method of the boiler of fast sampling |
CN105352758B (en) * | 2015-11-29 | 2017-12-15 | 龚柱 | The design method of the boiler of fast sampling |
CN105300734B (en) * | 2015-11-29 | 2017-12-08 | 龚柱 | The design method of fast sampler |
CN105510080B (en) * | 2015-11-29 | 2017-11-21 | 龚柱 | fast sampler |
CN105510079B (en) * | 2015-11-29 | 2017-12-08 | 龚柱 | fast sampler |
CN105258977B (en) * | 2015-11-29 | 2017-12-15 | 龚柱 | fast sampler |
CN105300733B (en) * | 2015-11-29 | 2017-12-15 | 龚柱 | The design method of the boiler of fast sampling |
CN105241690B (en) * | 2015-11-29 | 2017-12-15 | 龚柱 | The boiler of fast sampling |
CN105424411B (en) * | 2015-11-29 | 2017-12-08 | 龚柱 | The design method of fast sampler |
Family Cites Families (13)
Publication number | Priority date | Publication date | Assignee | Title |
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JPS5579001A (en) * | 1978-12-06 | 1980-06-14 | Babcock Hitachi Kk | Tube immersion type evaporating boiler |
CN2077125U (en) * | 1990-08-06 | 1991-05-15 | 贾志云 | Small industrial boiler water sampling unit |
JPH06307994A (en) * | 1993-03-17 | 1994-11-04 | Sumitomo Metal Mining Co Ltd | Dilution equipment and automatic sampling system for high concentration liquid |
US5772850A (en) * | 1995-05-11 | 1998-06-30 | Morris; Bobby D. | Apparatus for vapor compression distillation |
US5632864A (en) * | 1995-07-06 | 1997-05-27 | Kuss Corporation | Splash shield for distillation unit |
CN2271399Y (en) * | 1995-08-04 | 1997-12-31 | 白元周 | Energy saving liquid steaming boiler body |
US6010599A (en) * | 1995-09-20 | 2000-01-04 | American Technologies Group, Inc. | Compact vacuum distillation device |
CN2294763Y (en) * | 1997-06-16 | 1998-10-21 | 白元周 | High-efficient energy-saving boiler for liquid vaporizing |
CN2417912Y (en) * | 2000-04-22 | 2001-02-07 | 广西绿洲热能设备有限公司 | Waste-liquid direct-concentrating boiler |
CN202942650U (en) * | 2012-09-28 | 2013-05-22 | 天津百科生物化学有限公司 | Circulating closed concentration tower |
CN202961916U (en) * | 2012-11-14 | 2013-06-05 | 山东博宇精化有限公司 | Calcium lactate concentration device |
CN203763871U (en) * | 2014-03-10 | 2014-08-13 | 浙江美邦实业集团有限公司 | Novel concentrated solution tank for caprolactam recovery |
CN204233796U (en) * | 2014-11-28 | 2015-04-01 | 厦门艾卓工业设计有限公司 | Prepare the boiler of concentrate |
-
2014
- 2014-11-28 CN CN201410706722.9A patent/CN104399269B/en active Active
-
2015
- 2015-04-15 AU AU2015100495A patent/AU2015100495A4/en not_active Ceased
- 2015-04-15 AU AU2015100496A patent/AU2015100496A4/en not_active Ceased
- 2015-08-11 IE IES20150261A patent/IES86677B2/en not_active IP Right Cessation
- 2015-08-11 IE IE20150228A patent/IE86848B1/en unknown
- 2015-11-27 GB GB1520936.4A patent/GB2536759B/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
CN104399269B (en) | 2016-01-20 |
IE20150228A1 (en) | 2016-06-01 |
IE86848B1 (en) | 2017-12-13 |
GB201520936D0 (en) | 2016-01-13 |
GB2536759A (en) | 2016-09-28 |
AU2015100495A4 (en) | 2015-05-21 |
CN104399269A (en) | 2015-03-11 |
GB2536759B (en) | 2017-10-11 |
IES20150261A2 (en) | 2016-06-01 |
AU2015100496A4 (en) | 2015-05-21 |
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