CN102600624B - Efficient energy-saving continuous concentrating device - Google Patents
Efficient energy-saving continuous concentrating device Download PDFInfo
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- CN102600624B CN102600624B CN2012100799532A CN201210079953A CN102600624B CN 102600624 B CN102600624 B CN 102600624B CN 2012100799532 A CN2012100799532 A CN 2012100799532A CN 201210079953 A CN201210079953 A CN 201210079953A CN 102600624 B CN102600624 B CN 102600624B
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Abstract
The invention relates to an efficient energy-saving continuous concentrating device which belongs to the technical field of pharmaceutical equipment for traditional Chinese medicine and comprises a barrel and a group of concentration pipes, wherein the upper part of the barrel is provided with an upper barrel cover, the lower part of the barrel is provided with a lower barrel cover, the upper side part of the barrel is connected with a heating medium leading-in connector, and the lower part of the barrel is connected with a condensate leading-out connector; and the upper ends of the group of concentration pipes are fixed on an upper pipe plate, and the lower ends of the group of concentration pipes are fixed on a lower pipe plate. The efficient energy-saving continuous concentrating device is characterized in that a group of first backflow clapboards and a group of second backflow clapboards are arranged in a barrel cavity in the height direction of the barrel cavity, a group of upper barrel cavity partition boards is arranged in an upper barrel cover cavity, a group of lower barrel cavity partition boards is arranged in a lower barrel cover cavity, and the lower barrel cover cavity is divided into a group of lower barrel cover backflow cavities independent from one another by the lower barrel cover partition boards. The efficient energy-saving continuous concentrating device has the advantages of being convenient for cleaning and ensuring good heat exchange effect, being capable of realizing continuous concentration and energy saving as well as improving the concentration efficiency, ensuring sanitary and eliminating pollution, being convenient to maintain, being capable of ensuring the service life, and saving cost.
Description
Technical field
the invention belongs to the herbal pharmaceutical equipment technical field, be specifically related to a kind of energy-efficient continuous concentration device.
Background technology
enrichment facility is concentrated for Chinese patent drug, after concentrating, carries out drying, because the solid content of concentrate can directly affect the drying efficiency of drying process, so generally makes as far as possible concentrate have desirable viscosity.Can be seen in the technical information of enrichment facility in published Chinese patent literature, slightly with exemplify as " extraction method for concentration and the special purpose device thereof of the water extraction taking liquid of Chinese medicine " that application for a patent for invention publication No. CN102363085A recommends, it is to be extracted by extractor, extract is delivered to medicine tin, again the liquid in medicine tin is taken out and caused vaporization chamber and be treated to the concentrated liquid of tradition Chinese medicine and Chinese medicine steam by vaporization chamber, then separated.Although this patent application scheme has the technique effect of the 0007th section title of its specification, due to the vaporization chamber unreasonable structure that is vaporization chamber heat treatment section, to cause thickening efficiency low.Typical as disclosed as Granted publication CN2764391Y " traditional Chinese medicine liquid continuous high-efficient vacuum concentration equipment ", this patent scheme is compared thickening efficiency and can be significantly improved with CN102363085A, because heater has adopted spiralling coiled structure, and the CN102363085A employing is pure tubular structure.But, there is following shortcoming in the heater of coiled structure: the one, be difficult to heating tube is cleaned, and affect heat transfer effect, because coil pipe is in to heating material, material easily stiffly adheres to the lumen wall of coil pipe, if yet can not effectively remove the fouling adhered on tube wall, can affect heat transfer effect so; The 2nd, cause energy waste, because, after the coil pipe tube wall is adhered to by material, heat transfer effect is had a strong impact on, negatively time expand, compensated, thereby both affected production efficiency, wastes energy again; The 3rd, affect health, once, because coil pipe is cleaned and loses thoroughly, can cause the cross pollution to material; The 4th, be unfavorable for maintenance, often can only replace coil pipe integral body, thereby cause the equipment use cost to increase.
in view of above-mentioned prior art, be necessary to be improved, to this, the applicant does positive and useful design, and technical scheme described below produces under this background.
Summary of the invention
task of the present invention is to provide a kind of and contributes to convenient the cleaning and use and ensure heat transfer effect, be conducive to save the energy, be of value to and embody continuous concentration and use and enhance productivity, have and be convenient to ensure health and use to avoid causing to the pollution of material and have and be good at maintenance and use and ensure service life and reduce the energy-efficient continuous concentration device to the use cost of equipment.
task of the present invention completes like this, a kind of energy-efficient continuous concentration device, comprise cylindrical shell, the top of this cylindrical shell is furnished with cover on, and bottom is furnished with cover, and the upper lateral part at cylindrical shell connects one for the introducing of the heat medium in the cylinder chamber of heat medium being introduced to cylindrical shell interface, and connect a condensate liquid of drawing for the condensed heat medium by described cylinder chamber in the bottom of cylindrical shell, draws interface, one group of concentration tube, the upper end of this group concentration tube is fixed on upper perforated plate, and communicate with the upper cover chamber of upper cover, and the uncovered position on the top of upper perforated plate and described cylindrical shell is fixed, the lower end of this group concentration tube is fixed on lower perforated plate, and communicate with the lower cover chamber of lower cover, and the uncovered position of the bottom of lower perforated plate and described cylindrical shell is fixed, wherein, receive a liquid introducing interface and a concentrate in the bottom of lower cover and drawn interface, be characterised in that: in described cylinder chamber and along the short transverse of cylinder chamber, be arranged at intervals with one group of first backflow dividing plate and one group of second backflow dividing plate, wherein: one group of first backflow dividing plate is positioned at a side of cylinder chamber, and one group of second backflow dividing plate is positioned at the opposite side of cylinder chamber, and first, the second backflow dividing plate is each other one every a distribution, by first, the second backflow dividing plate forms cylinder chamber in the cylinder chamber passage of S shape, be arranged at intervals with cover chamber demarcation strip on a group in the cover chamber on described, by upper cover chamber demarcation strip, described upper cover chamber is divided into to cover back cavity on a group independent of each other, be arranged at intervals with cover chamber demarcation strip under a group in described lower cover chamber, by lower cover chamber demarcation strip, described lower cover chamber is divided into to cover back cavity under a group independent of each other.
in a specific embodiment of the present invention, cover and be equipped with a blow-down pipe at described top cylinder, this blow-down pipe communicates with described upper cover chamber, and is equipped with an atmospheric valve on this blow-down pipe.
in another specific embodiment of the present invention, be provided with the cover heat-insulation layer on the outer wall of cover on described.
in another specific embodiment of the present invention, the position, edge of cover forms on described cover flange on, and on this, the cover flange is fixedly connected with the edge of described upper perforated plate by one group of first securing member; Form cover flange is arranged at the position, edge of described lower cover, this time the cover flange is fixedly connected with the edge of described lower perforated plate by one group of second securing member.
in another specific embodiment of the present invention, form one first seal groove is arranged on the cover flange and towards a side of described upper perforated plate on described, be embedded in one first sealing ring at this first seal groove; Form one second seal groove is arranged on described lower cover flange and towards a side of described lower perforated plate, at this second seal groove, be embedded in one second sealing ring.
also have a specific embodiment of the present invention, at described cylindrical shell, be outside equipped with the cylindrical shell heat-insulation layer.
more of the present invention and, in specific embodiment, described heat medium is introduced interface and described condensate liquid is drawn the position relationship that interface forms diagonal angle each other.
in of the present invention and then specific embodiment, connected the blowdown interface in the bottom of described lower cover, the blowdown interface communicates with described lower cover chamber, and is equipped with blowoff valve on the blowdown interface.
of the present invention again more and, in specific embodiment, described one group of first, second backflow dividing plate forms the relation of interdigital each other.
in again of the present invention and then specific embodiment, described heat medium is hot water, steam or conduction oil.
technical scheme provided by the invention is because the concentration tube of the coiled by prior art changes the structure of shell and tube into, thereby extremely is conducive to clean, to ensure good heat transfer effect; Due in cylinder chamber, be provided with each other one every a distribution for making cylinder chamber form the cylinder chamber passage of S shape, thereby can make heat medium S-shaped mobile, and extend the heat-exchange time to concentration tube, not only can embody continuous concentration, and can embody energy-conservationly, and can improve thickening efficiency; Owing to can easily concentration tube being cleaned, thereby can ensure health, stop to pollute; Easy to maintenance and can ensure service life, use the cost of equipment to save production firm.
The accompanying drawing explanation
fig. 1 is the embodiments of the invention structure chart.
fig. 2 is application examples schematic diagram of the present invention.
The specific embodiment
for the auditor that the makes Patent Office especially public can be expressly understood technical spirit of the present invention and beneficial effect more, the applicant general elaborates in the mode of embodiment below, but the description to embodiment is not all the restriction to the present invention program, any according to the present invention design, done only for pro forma but not substantial equivalent transformation all should be considered as technical scheme category of the present invention.
ask for an interview Fig. 1, provided the cylindrical shell 1 that shape is cylinder, upper lateral part at cylindrical shell 1 has connected a heat medium introducing interface 14, introduce interface 14 and to the interior introducing heat medium of the cylinder chamber 13 of cylindrical shell 1 by this heat medium, heat medium is as hot water, steam or conduction oil, and the present embodiment is selected steam.Connected a condensate liquid in the following side of cylindrical shell 1 and drawn interface 15, drawn the condensate liquid of interface 15 in cylinder chamber 13 by this condensate liquid and draw (condensate liquid is to be formed by the steam-condensation as heat medium).Wherein: condensate liquid is drawn interface 15 and should be introduced interface 14 with heat medium and form the position relationship at diagonal angle each other.Energy-conservation in order to embody, avoid cylinder chamber 13 because of heat transmission loses heat, therefore on the outer wall of cylindrical shell 1, be coated with cylindrical shell heat-insulation layer 16.
as shown in Figure 1, uncovered position on the top of cylindrical shell 1 is equipped with cover 11 on, and the uncovered position of the bottom of cylindrical shell 1 is equipped with cover 12, be equipped with a blow-down pipe 113 on upper cover 11, and be equipped with an atmospheric valve 1131 on blow-down pipe 113, blow-down pipe 113 communicates with the upper cover chamber 111 of upper cover 11.The effect of also being provided with on the outer wall of upper cover 11 is equivalent to the upper cover heat-insulation layer 114 of aforesaid cylindrical shell heat-insulation layer 16.Connected a liquid introducing interface 122 and a concentrate in the bottom of lower cover 12 and drawn interface 123, this liquid introducing interface 122 and concentrate are drawn interface 123 and are all communicated with the lower cover chamber 121 of lower cover 12.
the concentration tube 2 that one composing quantity is not illustrated restricted number is arranged in aforesaid cylinder chamber 13 with vertical state, specifically: the upper end of each concentration tube 2 is fixed on upper perforated plate 21, and upper perforated plate 21 is fixed on the uncovered position on the top of cylindrical shell 1, the lower end of each concentration tube 2 is fixed on lower perforated plate 22, and lower perforated plate 22 is fixed on the uncovered position of the bottom of cylindrical shell 1, the tube chamber of concentration tube 2 both communicated with upper cover chamber 111, with lower cover chamber 121, communicated again.
technical essential as technical scheme provided by the invention: in cylinder chamber 13 and the short transverse of following cylinder chamber 13 be provided with one group of first backflow dividing plate 131 and one group of second backflow dividing plate 132 with the interval state, wherein: the side that one group of first backflow dividing plate 131 is positioned at cylinder chamber 13 is the left side of location status shown in Fig. 1, and the opposite side that one group of second time dividing plate 132 is positioned at cylinder chamber 13 is the right side of location status shown in Fig. 1, and first, the second backflow dividing plate 131, 132 are one each other every a setting, more precisely, first, the second backflow dividing plate 131, 132 form the relation of interdigital each other, make by this cylinder chamber 13 form the cylinder chamber passage of S shape.The heat medium (steam) be incorporated in cylinder chamber 13 by heat medium introducing interface 14 flows with S shape, until draw interface 15 from condensate liquid, draws.The concept of aforesaid interdigital can be fully understood by the deciphering of the interdigital transducer in electronic applications.
again, be extended with cover chamber demarcation strip 114 on a group in cover chamber 111 on aforesaid, in the present embodiment, although that the quantity of the upper cover chamber demarcation strip 111 of one group of each interval has is a pair of, should not be subject to the restriction of this quantity.The two pieces of current upper cover chamber demarcation strips 1111 of take are example, upper cover chamber 111 is separated into to three upper cover back cavities 1112 independent of each other, aforesaid blow-down pipe 113 is introduced the upper cover back cavity 1112 of interface 14 corresponding to the aforesaid heat medium of being away from of the rightmost side (shown position state) in 111Shang position, upper cover chamber.
and, be extended with cover chamber demarcation strip 1211 under a group in aforesaid lower cover chamber 121, in the present embodiment, the quantity of the lower cover chamber demarcation strip 1211 of one group of each interval has three pieces, but should not be subject to the restriction of this quantity.The three pieces of current lower cover chamber demarcation strips 1211 of take are example, lower cover chamber 121 is separated into to four lower cover back cavities 1212 independent of each other, aforesaid liquid introduce interface 122 with first be that the lower cover back cavity 1212 on the left side communicates, and the lower cover back cavity 1212 of aforesaid concentrate on the right of drawing interface 123 and one, end being communicates.Preferably, be equipped with two blowdown interfaces 125 in the bottom of lower cover 12, on each blowdown interface 125, be equipped with blowoff valve 1251.Why blowdown interface 125 has two, this is because within 1211 minutes, be separated with four lower cover back cavities 1212 by three pieces of lower cover demarcation strips, and head and the tail to be left and right two lower cover back cavities 1212 introduce interface 122 and concentrate with liquid respectively draws interface 123 and communicate, and middle two lower cover back cavities 1212 can produce hydrops, therefore after work completes, can get rid of by blowdown interface 125 separately.
please continue to see Fig. 1, the position, edge of aforesaid upper cover 11 forms cover flange 115 on, and on this, cover flange 115 is concaved with one first seal groove 1152 towards a side of aforesaid upper perforated plate 21, at the first seal groove 1152, has been embedded in one first sealing ring 11521.When with one group of first securing member 1151, good sealing function fixedly the time, being played to by the first sealing ring 11521 in the position, edge of upper cover flange 115 and upper perforated plate 21.Same reason, the position, edge of aforesaid lower cover 12 forms cover flange 124, and be concaved with one second seal groove 1242 at lower cover flange 124 towards a side of lower perforated plate 22, be embedded with one second sealing ring 12421 in this second seal groove 1242.When with one group of second securing member 1241, desirable sealing function fixedly the time, being played to by the second sealing ring 12421 in the position, edge of lower cover flange 124 and lower perforated plate 22.
structure from Fig. 1, introduce from liquid that interface 122 introduces await concentrated liquid due to the setting of cover chamber demarcation strip 1111 and lower cover chamber demarcation strip 1211 make one group of concentration tube 2 be divided into a plurality of unit or claim a plurality of groups, make liquid also S-shaped direction flow, until draw from the concentration tube 2 of Yi Ge unit, end, drawing interface 123 by concentrate draws, and certainly, stagger in the position each other of one group of upper and lower cover demarcation strip 1111,1211.
ask for an interview Fig. 2 and continue in conjunction with Fig. 1, by of the present invention as shown in Figure 1 the energy-efficient continuous concentration device of structure with evaporimeter 3, be connected, evaporimeter 3 is connected with gas-liquid separator 4, gas-liquid separator 4 is connected with condenser 5, wherein,, because evaporimeter 3, gas-liquid separator 4 and condenser 5 minute are known technology because belonging to, for example can be specifically referring to Chinese utility model patent Granted publication CN2764391Y, so the applicant repeats no more.
in the time will using Fig. 1 structure of the present invention concentrated to liquid, from liquid, introducing interface 122 is incorporated in the lower cover chamber 121 of cover 12, because upper cover chamber 111 is separated with three upper cover back cavities 1112 in 1111 minutes by a pair of upper cover chamber demarcation strip, again because lower cover chamber 121 is separated with four lower cover back cavities 1212 in 1211 minutes by three pieces of lower cover chamber demarcation strips, therefore, by liquid introduce liquid that interface 122 introduces following in Fig. 1, mark for illustrating the liquid arrow mobile at the tube chamber of concentration tube 2 to flow, until draw interface 123 from concentrate, draw, enter aforesaid evaporimeter 3 and carry out subsequent treatment.
in sum, technical scheme provided by the invention has solved the many shortcomings in the prior art, has completed the invention task, has objectively embodied the technique effect described in the superincumbent technique effect of applicant hurdle.
Claims (10)
1.
a kind of energy-efficient continuous concentration device, comprise cylindrical shell (1), the top of this cylindrical shell (1) is furnished with cover on (11), and bottom is furnished with cover (12), and the upper lateral part at cylindrical shell (1) connects one for the introducing of the heat medium in the cylinder chamber (13) of heat medium being introduced to cylindrical shell (1) interface (14), and connect a condensate liquid of drawing for the condensed heat medium by described cylinder chamber (13) in the bottom of cylindrical shell (1), draws interface (15), one group of concentration tube (2), the upper end of this group concentration tube (2) is fixed on upper perforated plate (21), and communicate with the upper cover chamber (111) of upper cover (11), and upper perforated plate (21) is fixed with the uncovered position on the top of described cylindrical shell (1), the lower end of this group concentration tube (2) is fixed on lower perforated plate (22), and communicate with the lower cover chamber (12) of lower cover (12), and lower perforated plate (22) is fixed with the uncovered position of the bottom of described cylindrical shell (1), wherein, receive a liquid introducing interface (122) and a concentrate in the bottom of lower cover (12) and drawn interface (123), it is characterized in that: in described cylinder chamber (13) and along the short transverse of cylinder chamber (13), be arranged at intervals with one group of first backflow dividing plate (131) and one group of second backflow dividing plate (132), wherein: one group of first backflow dividing plate (131) is positioned at a side of cylinder chamber (13), and one group of second backflow dividing plate 132 is positioned at the opposite side of cylinder chamber 13, and first, the second backflow dividing plate 131, (132) each other one every a distribution, by first, the second backflow dividing plate (131, 132) cylinder chamber (13) is formed to the cylinder chamber passage of S shape, be arranged at intervals with cover chamber demarcation strip (1111) on a group in cover chamber (111) on described, by upper cover chamber demarcation strip (1111), described upper cover chamber (111) is divided into to cover back cavity (1112) on a group independent of each other, be arranged at intervals with cover chamber demarcation strip (1211) under a group in described lower cover chamber (121), by lower cover chamber demarcation strip (1211), described lower cover chamber (121) is divided into to cover back cavity (1212) under a group independent of each other.
2.
energy-efficient continuous concentration device according to claim 1, it is characterized in that being equipped with a blow-down pipe (113) on cover (11) on described, this blow-down pipe (113) communicates with described upper cover chamber (111), and is equipped with an atmospheric valve (1131) on this blow-down pipe (113).
3.
energy-efficient continuous concentration device according to claim 1 and 2, is characterized in that being provided with upper cover heat-insulation layer (114) on the outer wall of cover (11) on described.
4.
energy-efficient continuous concentration device according to claim 1, the position, edge that it is characterized in that cover (11) on described forms cover flange (115) on, and on this, cover flange (115) is fixedly connected with the edge of described upper perforated plate (21) by one group of first securing member (1151); Form cover flange (124) is arranged at the position, edge of described lower cover (12), this time cover flange (124) is fixedly connected with the edge of described lower perforated plate (22) by one group of second securing member (1241).
5.
energy-efficient continuous concentration device according to claim 4, it is characterized in that on described cover flange (115) is upper and form one first seal groove (1152) is arranged towards a side of described upper perforated plate (21), at this first seal groove (1152), being embedded in one first sealing ring (11521); Upper and form one second seal groove (1242) is arranged towards a side of described lower perforated plate (22) at described lower cover flange (124), be embedded in one second sealing ring (12421) at this second seal groove (1242).
6.
energy-efficient continuous concentration device according to claim 1, is characterized in that being outside equipped with cylindrical shell heat-insulation layer (16) at described cylindrical shell (1).
7.
energy-efficient continuous concentration device according to claim 1, is characterized in that described heat medium is introduced interface (14) and described condensate liquid is drawn the position relationship that interface (15) forms diagonal angle each other.
8.
energy-efficient continuous concentration device according to claim 1, it is characterized in that having connected blowdown interface (125) in the bottom of described lower cover (12), blowdown interface (125) communicates with described lower cover chamber (121), and is equipped with blowoff valve (1251) on blowdown interface (125).
9.
energy-efficient continuous concentration device according to claim 1, is characterized in that described one group of first, second backflow dividing plate (131,132) forms the relation of interdigital each other.
10.
energy-efficient continuous concentration device according to claim 1, is characterized in that described heat medium is hot water, steam or conduction oil.
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CN2012100799532A CN102600624B (en) | 2012-03-26 | 2012-03-26 | Efficient energy-saving continuous concentrating device |
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CN2012100799532A CN102600624B (en) | 2012-03-26 | 2012-03-26 | Efficient energy-saving continuous concentrating device |
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CN102600624B true CN102600624B (en) | 2013-12-11 |
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Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2198960Y (en) * | 1994-06-14 | 1995-05-31 | 化学工业部上海化工研究院 | S-shaped groove continous filtering concentrator |
CN101422660A (en) * | 2008-10-30 | 2009-05-06 | 吕江强 | Continuous concentration device of traditional Chinese medicine thermal-refluxing extracting liquid |
CN201358206Y (en) * | 2009-01-13 | 2009-12-09 | 上海康福特环境科技有限公司 | Integral equipment for sludge thickening and dehydrating |
CN202516329U (en) * | 2012-03-26 | 2012-11-07 | 江苏沙家浜化工设备有限公司 | Efficient energy-saving continuous concentration device |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
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US7404938B2 (en) * | 2004-05-11 | 2008-07-29 | The United States Of America As Represented By The Administrator Of The National Aeronautics And Space Administration | Emission control system |
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2012
- 2012-03-26 CN CN2012100799532A patent/CN102600624B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2198960Y (en) * | 1994-06-14 | 1995-05-31 | 化学工业部上海化工研究院 | S-shaped groove continous filtering concentrator |
CN101422660A (en) * | 2008-10-30 | 2009-05-06 | 吕江强 | Continuous concentration device of traditional Chinese medicine thermal-refluxing extracting liquid |
CN201358206Y (en) * | 2009-01-13 | 2009-12-09 | 上海康福特环境科技有限公司 | Integral equipment for sludge thickening and dehydrating |
CN202516329U (en) * | 2012-03-26 | 2012-11-07 | 江苏沙家浜化工设备有限公司 | Efficient energy-saving continuous concentration device |
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Address after: Suzhou City, Jiangsu province Zhongtian road 215559 Changshou City Shajiabang town Changkun Industrial Park E District Patentee after: JIANGSU SHAJIABANG CHEMICAL EQUIPMENT CO., LTD. Address before: Suzhou City, Jiangsu province Zhongtian road 215559 Changshou City Shajiabang town Changkun Industrial Park E District Patentee before: Jiangsu Shajiabang Chemical Equipment Co., Ltd. |