CN101224547A - Manufacturing method of jacketed tank - Google Patents
Manufacturing method of jacketed tank Download PDFInfo
- Publication number
- CN101224547A CN101224547A CNA2007100366412A CN200710036641A CN101224547A CN 101224547 A CN101224547 A CN 101224547A CN A2007100366412 A CNA2007100366412 A CN A2007100366412A CN 200710036641 A CN200710036641 A CN 200710036641A CN 101224547 A CN101224547 A CN 101224547A
- Authority
- CN
- China
- Prior art keywords
- fluid passage
- jacket
- jacket canister
- chuck
- chuck plate
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Images
Landscapes
- Filling Or Discharging Of Gas Storage Vessels (AREA)
Abstract
The invention provides a manufacturing method of a jacket tank. The jacket tank (1) comprises a tank body plate (4) and a jacket plate (5) which is arranged at the external side of the tank body plate (4); a fluid passage (6) is formed inside the jacket plate (5); the manufacturing method of the jacket tank comprises the steps of S1: manufacturing the jacket tank (1) where the jacket plate (5) is welded and the fluid passage (6) is not formed by the jacket plat (5); S2: all jacket plates (5) of the jacket tank (1) where the fluid passage (6) is not formed are once expanded and formed into the jacket of the fluid passage (6) with the required shape under the action of the fluid pressure.
Description
Technical field
The present invention relates to the manufacture method of a kind of jar of kind equipment, relate in particular to a kind of manufacture method with container tank of chuck.
Background technology
The jar kind equipment that uses in industrial production such as beer, beverage often need heat or cool off, and for example, when the process need of material in the jar heats, then needs jar is heated; When the process of material in the jar can discharge a large amount of heat, then need jar is cooled off.Therefore, this type of jar kind equipment often will be provided with heat transfer element.At present, the most commonly used with the jacket canister that is provided with chuck class heat transfer element.
Shown in Fig. 1~5, jacket canister generally comprises tank body (promptly, tank body plate 4) and chuck (promptly, chuck plate 5), chuck plate 5 is arranged on the outside of tank body plate 4, has fluid passage 6 in the chuck plate 4, fluid passage 6 has fluid input port 7 and delivery outlet 8, in the chuck input of medium, delivery outlet 7,8 respectively be configured in jacket canister on intake line 9 and output pipe 10 be communicated with, the cooling medium flows into chuck through intake line 9, and the fluid passage 6 in the chuck of flowing through, flow out chuck from output pipe 10 at last.Because the jacket canister volume of using in the industry is bigger, so jacket canister 1 generally is made of a plurality of shell rings 2, each shell ring 2 may be made of a plurality of cell blocks 3 again, each cell block 3 comprises monolithic tank body plate 4 and monolithic chuck plate 5, and monolithic chuck plate 5 is welded on the outside (the numerous small circles among Fig. 2 a are solder joint) of monolithic tank body plate 4.
At present, the manufacture method commonly used of jacket canister is:
Step 1: the moulding of monolithic chuck 5, that is, monolithic chuck plate 5 is carried out compression molding make it to have fluid passage 6 and (see also Fig. 1 a~1c);
Step 2: manufacturing cell's piece 3, that is, the outside that molded good monolithic chuck plate 5 is welded on the monolithic tank body plate 4 that has rolled (sees also Fig. 2 a~2c);
Step 3: a plurality of cell blocks 3 are assembled into shell ring 2 (seeing also Fig. 3);
Step 4: a plurality of shell rings 2 are assembled into jacket canister 1 (seeing also Fig. 4);
Step 5: give the jacket canister pipe arrangement, make the input of all monolithic chuck plates 5, delivery outlet 7,8 be communicated with (seeing also Fig. 5) with input, output pipe 9,10 respectively.
Mainly there is following shortcoming in above-mentioned manufacture method:
1. each monolithic chuck plate need be distinguished manufacturing separately, and production efficiency is low, the cost height, and each piece chuck plate processing stage is inconsistent, of poor quality;
2. the manufacturing of monolithic chuck plate need be used extra former, not only causes making complexity, and causes manufacturing cost to increase;
Summary of the invention
In order to solve the technical problem that exists in the prior art, a main purpose of the present invention just is to provide the manufacture method of the jacket canister chuck of a kind of production efficiency height, good product quality, low cost of manufacture.
To achieve these goals, the invention provides a kind of manufacture method of jacket canister, described jacket canister comprises the tank body plate and is arranged on the chuck plate in the tank body plate outside that form the fluid passage in the described chuck plate, the manufacture method of described jacket canister comprises the steps:
S1: manufacturing has been welded with the chuck plate but the chuck plate does not form the jacket canister of fluid passage as yet;
S2: the chuck plate that all that make jacket canister do not form the fluid passage as yet the effect of fluid pressure next time the property bulging be shaped to chuck with required form fluid passage.
Compare with existing manufacture method, the present invention has improved production efficiency greatly, has reduced production cost constituting the method for all chuck plates employing disposable integral bulging moulding of whole jar, has improved product quality.
And, in the process of whole bulging moulding, only need to use the pipe arrangement of jacket canister self, and need not to use extra former, thereby further reduced production cost, improved production efficiency.
Description of drawings
Fig. 1 a is the front view of the monolithic chuck plate after the independent moulding of existing monolithic; Fig. 1 b shows the cutaway view along A-A among Fig. 1 a; Fig. 1 c shows the cutaway view along B-B among Fig. 1 a;
Fig. 2 a shows the cell block with the monolithic chuck among Fig. 1, promptly chuck plate 5 is welded to cell block behind the tank body plate 4 that rolls into arc; Fig. 2 b shows the cutaway view along C-C among Fig. 2 a; Fig. 2 c shows the cutaway view along D-D among Fig. 2 a;
Fig. 3 shows the shell ring that is assembled by a plurality of cell blocks among Fig. 2;
Fig. 4 shows the jacket canister that is assembled by a plurality of shell rings among Fig. 3;
Fig. 5 shows the jacket canister after the turnover pipeline of the interior medium of jacket canister chuck among Fig. 4 disposes;
Fig. 6 a is the front view of monolithic chuck plate of the not moulding of first embodiment of the invention; Fig. 6 b shows the cutaway view along A '-A ' among Fig. 6 a; Fig. 6 c shows the cutaway view along B '-B ' among Fig. 6 a;
Fig. 7 a shows the cell block with the monolithic chuck plate among Fig. 6, promptly chuck plate 5 is welded to cell block behind the tank body plate 4; Fig. 7 b shows the cutaway view along C '-C ' among Fig. 7 a; Fig. 7 c shows the cutaway view along D '-D ' among Fig. 7 a;
Fig. 8 demonstration rolls the shell ring that assembles by a plurality of cell blocks among Fig. 7;
Fig. 9 shows the jacket canister that is formed by a plurality of shell ring welding assemblies among Fig. 8;
Figure 10 is shown to the schematic diagram behind the jacket canister pipe arrangement shown in Figure 9;
Figure 11 a shows the local amplification view without E-E among whole bulging moulding forward position Figure 10 of the present invention; Figure 11 b shows after whole bulging moulding of the present invention local amplification view along E-E among Figure 10;
Figure 12 a shows the jacket canister with arch fluid passage; Figure 12 b shows after whole bulging moulding of the present invention local amplification view along F-F among Figure 12 a.Figure 12 c shows after whole bulging moulding of the present invention local amplification view along G-G among Figure 12 a.
The specific embodiment
The invention provides a kind of manufacture method of jacket canister, this jacket canister 1 comprises tank body plate 4 and is arranged on the chuck plate 5 in tank body plate 4 outsides that form fluid passage 6 in the described chuck plate 5, the manufacture method of described jacket canister comprises the steps:
S1: manufacturing has been welded with chuck plate 5 but chuck plate 5 does not form the jacket canister 1 of fluid passage 6 as yet;
S2: the chuck plate 5 that all that make jacket canister 1 do not form fluid passage 6 as yet the effect of fluid pressure next time the property bulging be shaped to chuck with required form fluid passage 6.
Embodiment one
Fig. 6~Figure 11 shows that the schematic diagram of making the honeycomb jacket jar is (as for the relevant knowledge of honeycomb jacket jar, see also patent CN 242617Y " cellular heat transfer element structure ") (please note: the institute's drawings attached among the present invention only is the schematic diagram that is used for illustrating manufacture process, its size, ratio and in kind and inequality).Specify manufacturing step of the present invention below with reference to Fig. 6~Figure 11:
The description of drawings relevant with step S1:
<S1-1 step by step 〉
Fig. 6 a, 6b, 6c show the monolithic chuck plate 5 that does not form fluid passage 6 as yet, owing to also it is not carried out forming processes, therefore, the monolithic chuck plate of this moment is actually a plane thin plate.Shown in Fig. 6 a, monolithic chuck plate 5 is provided with fluid input port 7 and delivery outlet 8.In Fig. 6 a, a plurality of dotted line small circles that mark on the monolithic chuck plate 5 are meant the circle weldering astragal in the next step.
<S1-2 step by step 〉
Fig. 7 a, 7b, Fig. 7 c show the monolithic chuck plate 5 that does not form fluid passage 6 among Fig. 6 as yet are welded to the formed cell block 3 in back on the outside of monolithic tank body plate 4.
Preferable, can adopt the method for Laser Welding that the monolithic chuck plate 5 that does not form fluid passage 6 among Fig. 6 as yet is welded on the outside of monolithic tank body plate 4.
Preferable, can adopt the method for argon arc welding that the monolithic chuck plate 5 that does not form fluid passage 6 among Fig. 6 as yet is welded on the outside of monolithic tank body plate 4.
Preferable, can adopt the method for electric resistance welding that the monolithic chuck plate 5 that does not form fluid passage 6 among Fig. 6 as yet is welded on the outside of monolithic tank body plate 4.
Need to prove that welding method is not limited to above three kinds, can also adopt other existing welding method that the monolithic chuck plate 5 that does not form fluid passage 6 among Fig. 6 as yet is welded on the monolithic tank body plate 4.
<S1-3 step by step 〉
Fig. 8 demonstration rolls the shell ring 2 that assembles by three cell blocks 3 among Fig. 7; Three cell blocks 3 can connect by the method that rolls welding to be combined, thereby forms a complete shell ring 2.
Preferable, can adopt the method for argon arc welding that a plurality of cell blocks 3 are welded together.Certainly, welding method is not limited to argon arc welding, can also adopt other existing welding method that a plurality of cell blocks 3 are welded together.
Need to prove that the number of forming single shell ring 2 required cell blocks 3 depends on the size of shell ring 2 circumferential sizes.If shell ring 2 circumferential sizes are less, can only adopt one or two module unit pieces 3; If shell ring 2 circumferential sizes are bigger, can adopt three or polylith cell block 3 more.This variation is conspicuous for a person skilled in the art, therefore, is not described in detail in this.
<S1-4 step by step 〉
Fig. 9 shows the jacket canister 1 that is assembled by four shell rings shown in Figure 82; Four shell rings 2 can connect by the method for welding to be combined, thereby forms whole jacket canister 1.
Preferable, can adopt the method for argon arc welding that four shell rings 2 are welded together.Certainly, welding method is not limited to argon arc welding, can also adopt other existing welding method that four shell rings 2 are welded together.
Need to prove that the number of forming whole jacket canister 1 required shell ring 2 depends on the size of jacket canister 1 height dimension.If jacket canister 1 height dimension is less, can only adopt one or two shell ring 2; If jacket canister 1 height dimension is bigger, can adopt three or more shell rings 2.This variation is conspicuous for a person skilled in the art, therefore, is not described in detail in this.
The description of drawings relevant with step S2:
<S2-1 step by step 〉
Figure 10 is shown to the schematic diagram behind jacket canister 1 pipe arrangement; Give jacket canister 1 fluid intake line 9 and fluid output tube road 10, fluid input tube road 9 is communicated with the input port 7 of all monolithic chuck plates 5 that constitute whole jacket canister 1, and 10 delivery outlets 8 with all monolithic chuck plates 5 that constitute whole jacket canister 1 in fluid output tube road are communicated with.
<S2-2 step by step 〉
Figure 11 a shows the partial sectional view without E-E among whole bulging moulding forward position Figure 10 of the present invention; Shown in Figure 11 a, because the chuck of this moment does not also form fluid passage 6 also without the bulging forming processes.
When the valve (not shown) of closing fluid output tube road 10, and when 9 inputs have the fluid of predetermined pressure from the fluid input tube road, fluid with predetermined pressure can flow into the gap space between the chuck plate 5 and tank body plate 4 in all cell blocks 3 simultaneously, all monolithic chuck plates 5 are with the bulging moulding simultaneously of identical distortion situation, so all the monolithic chucks 5 after the moulding have identical shape under same fluid pressure action.
Figure 11 b shows after whole bulging moulding of the present invention local amplification view along E-E among Figure 10.Figure 11 b shows chuck plate 5 molded chucks (because its section shape is just as honeycomb, so the name honeycomb jacket) for having required form fluid passage 6.
Preferable, described fluid is a water.
Preferable, described fluid is an oil.
Need to prove that fluid is not limited to water and oil, can also adopt the fluid of other type.
Embodiment two
Different is with embodiment one, in whole steps S1, does not offer fluid input port 7 and delivery outlet 8 on the monolithic chuck plate 5 of fluid passage 6 step by step not forming as yet; And will do not form as yet offer on the monolithic chuck plate 5 of fluid passage 6 fluid input port 7 and delivery outlet 8 step by step as first S2-1 step by step of step S2.In addition, the step S1 of embodiment two, among the S2 other are identical with embodiment one step by step.
Need to prove, can also with on not forming the monolithic chuck plate 5 of fluid passage 6 as yet, offer among the step S1 that is arranged on embodiment one step by step of fluid input port 7 and delivery outlet 8 other step by step after, and keep the step S2 of embodiment one constant.This variation is conspicuous for a person skilled in the art, therefore, is not described in detail in this.
Particularly, embodiment two comprises the steps:
Step S1:
S1-1: manufacturing cell's piece 3 promptly, is welded on the monolithic chuck plate 5 that does not form fluid passage 6 as yet in the outside of monolithic tank body plate 4;
S1-2 a: cell block 3 or a plurality of cell block 3 rolled be assembled into shell ring 2;
S1-3 a: shell ring 2 or a plurality of shell ring 2 are assembled into jacket canister 1;
Step S2:
S2-1: on the every block of chuck plate 5 that constitutes jacket canister 1, offer input, delivery outlet 7,8;
S2-2: set input, output pipe 9,10 for jacket canister 1, all inputs that do not form the chuck plate 5 of fluid passage 6 as yet, delivery outlet 7,8 are communicated with input, output pipe 9,10 respectively;
S2-3: close output pipe 10, and have the fluid of pressure by intake line 9 input, the chuck plate 5 that all that make jacket canister 1 do not form fluid passage 6 as yet the effect of fluid pressure next time the property bulging be shaped to chuck with required form fluid passage 6.
Embodiment three
Be with the main difference point of embodiment one: in step S1 and S2,5 of monolithic chuck plates that do not form fluid passage 6 are as yet offered input port 7, and do not offer delivery outlet 8.
Particularly, embodiment three comprises the steps:
Step S1:
S1-1: do not offer input port 7 forming as yet on the monolithic chuck plate 5 of fluid passage 6;
S1-2: manufacturing cell's piece 3 promptly, is welded on the monolithic chuck plate 5 that does not form fluid passage 6 as yet in the outside of monolithic tank body plate 4;
S1-3 a: cell block 3 or a plurality of cell block 3 rolled be assembled into shell ring 2;
S1-4: a shell ring 2 or a plurality of shell ring 2 are assembled into jacket canister 1,
Step S2:
S2-1: set intake line 9 for jacket canister 1, the input port 7 of all chuck plates 5 that do not form fluid passage 6 as yet is communicated with intake line 9 respectively;
S2-2: have the fluid of pressure by intake line 9 input, the chuck plate 5 that all that make jacket canister 1 do not form fluid passage 6 as yet the effect of fluid pressure next time the property bulging be shaped to chuck with required form fluid passage 6.
Preferable, embodiment three also comprises the steps: after step S2
Step S3:
S3-1: on molded every block of chuck plate 5 that fluid passage 6 arranged, offer delivery outlet 8;
S3-2: have the jacket canister 1 of fluid passage 6 to set output pipe 10 to molded, the delivery outlet 8 of all chuck plates 5 is communicated with output pipe 10 respectively.
Embodiment four
Different is with embodiment three, in whole steps S1, does not offer fluid input port 7 step by step not forming as yet on the monolithic chuck plate 5 of fluid passage 6; And will do not form as yet offer on the monolithic chuck plate 5 of fluid passage 6 fluid input port 7 step by step as first S2-1 step by step of step S2.In addition, the step S1 of embodiment four, among the S2 other are identical with embodiment three step by step.
Need to prove, can also with on not forming the monolithic chuck plate 5 of fluid passage 6 as yet, offer among the step S1 that is arranged on embodiment three step by step of fluid input port 7 other step by step after, and keep the step S2 of embodiment three constant.This variation is conspicuous for a person skilled in the art, therefore, is not described in detail in this.
Particularly, embodiment four comprises the steps:
Step S1:
S1-1: manufacturing cell's piece 3 promptly, is welded on the monolithic chuck plate 5 that does not form fluid passage 6 as yet in the outside of monolithic tank body plate 4;
S1-2 a: cell block 3 or a plurality of cell block 3 rolled be assembled into shell ring 2;
S1-3: a shell ring 2 or a plurality of shell ring 2 are assembled into jacket canister 1,
Step S2:
S2-1: on the every block of chuck plate 5 that constitutes jacket canister 1, offer input port 7;
S2-2: set intake line 9 for jacket canister 1, the input port 7 of all chuck plates 5 that do not form fluid passage 6 as yet is communicated with intake line 9 respectively;
S2-3: have the fluid of pressure by intake line 9 input, the chuck plate 5 that all that make jacket canister 1 do not form fluid passage 6 as yet the effect of fluid pressure next time the property bulging be shaped to chuck with required form fluid passage 6.
Preferable, embodiment four also comprises the steps: after step S2
Step S3:
S3-1: on molded every block of chuck plate 5 that fluid passage 6 arranged, offer delivery outlet 8;
S3-2: have the jacket canister 1 of fluid passage 6 to set output pipe 10 to molded, the delivery outlet 8 of all chuck plates 5 is communicated with output pipe 10 respectively.
Embodiment five
Figure 12 a and 12b show the schematic diagram (as for the relevant knowledge of arch jacket canister, seeing also patent CN 1808036A " jacket with arc-like channel ") of the jacket canister with arch fluid passage.Different is with honeycomb jacket jar among embodiment one~embodiment four: after whole bulging moulding of the present invention, the chuck among the embodiment five is arch, and the chuck among embodiment one~embodiment four is cellular.
The manufacture method that note that the arch form jacket canister shown in Figure 12 a, 12b and the 12c can adopt any manufacture method among embodiment one~embodiment four.No matter that is to say, be the honeycomb jacket jar, or the arch jacket canister, or the jacket canister of other type, and it can adopt the whole bulging method of forming provided by the present invention.In a word, the machining manufacture of jacket canister provided by the present invention is not only contained the honeycomb jacket jar, and the arch jacket canister is also contained the jar kind equipment of bulging moulding chuck with other shape.
The main distinction of the present invention and prior art is: before being assembled into whole jacket canister, the chuck plate is not formed the forming processes of fluid passage separately; But after being assembled into whole jacket canister, to constituting all chuck plate disposable integral bulging moulding of whole jacket canister.Thereby improved production efficiency greatly, reduced production cost, improved product quality.
And, in the process of whole bulging moulding, only need to use the pipe arrangement of jacket canister self, and need not to use extra former, thereby be convenient to site operation, promptly, can be earlier required chuck plate and tank body plate cell block welded together be transported to the job site, makes jacket canister at the construction field (site).Help so further reducing production costs, enhancing productivity.
Although described preferred embodiment of the present invention above in detail, for those skilled in the art, can carry out variations and modifications within the scope of the invention.In a word, protection scope of the present invention is as the criterion with claims.
Claims (10)
1. the manufacture method of a jacket canister, this jacket canister (1) comprise tank body plate (4) and are arranged on the chuck plate (5) in tank body plate (4) outside that have fluid passage (6) in the described chuck plate (5), the manufacture method of described jacket canister comprises the steps:
S1: manufacturing has been welded with chuck plate (5) but chuck plate (5) does not form the jacket canister (1) of fluid passage (6) as yet;
S2: the chuck plate (5) that all that make jacket canister (1) do not form fluid passage (6) as yet the effect of fluid pressure next time the property bulging be shaped to chuck with required form fluid passage (6).
2. the manufacture method of jacket canister as claimed in claim 1 is characterized in that,
Described step S1 comprises step by step following:
S1-1: do not offer input, delivery outlet (7), (8) on the monolithic chuck plate (5) of fluid passage (6) forming as yet;
S1-2: manufacturing cell's piece (3), that is, the monolithic chuck plate (5) that will not form fluid passage (6) as yet is welded on the outside of monolithic tank body plate (4);
S1-3 a: cell block (3) or a plurality of cell block (3) rolled be assembled into shell ring (2);
S1-4 a: shell ring (2) or a plurality of shell ring (2) are assembled into jacket canister (1);
Described step S2 comprises step by step following:
S2-1: set input, output pipe (9), (10) for jacket canister (1), all inputs that do not form the chuck plate (5) of fluid passage (6) as yet, delivery outlet (7), (8) are communicated with input, output pipe (9), (10) respectively,
S2-2: close output pipe (10), and have the fluid of pressure by intake line (9) input, the chuck plate (5) that all that make jacket canister (1) do not form fluid passage (6) as yet the effect of fluid pressure next time the property bulging be shaped to chuck with required form fluid passage (6).
3. the manufacture method of jacket canister as claimed in claim 1 is characterized in that,
Described step S1 comprises step by step following:
S1-1: manufacturing cell's piece (3), that is, the monolithic chuck plate (5) that will not form fluid passage (6) as yet is welded on the outside of monolithic tank body plate (4);
S1-2 a: cell block (3) or a plurality of cell block (3) rolled be assembled into shell ring (2);
S1-3 a: shell ring (2) or a plurality of shell ring (2) are assembled into jacket canister (1);
Described step S2 comprises step by step following:
S2-1: on the every block of chuck plate (5) that constitutes jacket canister (1), offer input, delivery outlet (7), (8);
S2-2: set input, output pipe (9), (10) for jacket canister (1), all inputs that do not form the chuck plate (5) of fluid passage (6) as yet, delivery outlet (7), (8) are communicated with input, output pipe (9), (10) respectively;
S2-3: close output pipe (10), and have the fluid of pressure by intake line (9) input, the chuck plate (5) that all that make jacket canister (1) do not form fluid passage (6) as yet the effect of fluid pressure next time the property bulging be shaped to chuck with required form fluid passage (6).
4. the manufacture method of jacket canister as claimed in claim 1 is characterized in that,
Described step S1 comprises step by step following:
S1-1: do not offer input port (7) forming as yet on the monolithic chuck plate (5) of fluid passage (6);
S1-2: manufacturing cell's piece (3), that is, the monolithic chuck plate (5) that will not form fluid passage (6) as yet is welded on the outside of monolithic tank body plate (4);
S1-3 a: cell block (3) or a plurality of cell block (3) rolled be assembled into shell ring (2);
S1-4: a shell ring (2) or a plurality of shell ring (2) are assembled into jacket canister (1),
Described step S2 comprises step by step following:
S2-1: set intake line (9) for jacket canister (1), the input port (7) of all chuck plates (5) that do not form fluid passage (6) as yet is communicated with intake line (9) respectively;
S2-2: have the fluid of pressure by intake line (9) input, the chuck plate (5) that all that make jacket canister (1) do not form fluid passage (6) as yet the effect of fluid pressure next time the property bulging be shaped to chuck with required form fluid passage (6).
5. the manufacture method of jacket canister as claimed in claim 1 is characterized in that,
Described step S1 comprises step by step following:
S1-1: manufacturing cell's piece (3), that is, the monolithic chuck plate (5) that will not form fluid passage (6) as yet is welded on the outside of monolithic tank body plate (4);
S1-2 a: cell block (3) or a plurality of cell block (3) rolled be assembled into shell ring (2);
S1-3: a shell ring (2) or a plurality of shell ring (2) are assembled into jacket canister (1),
Described step S2 comprises step by step following:
S2-1: on the every block of chuck plate (5) that constitutes jacket canister (1), offer input port (7);
S2-2: set intake line (9) for jacket canister (1), the input port (7) of all chuck plates (5) that do not form fluid passage (6) as yet is communicated with intake line (9) respectively;
S2-3: have the fluid of pressure by intake line (9) input, the chuck plate (5) that all that make jacket canister (1) do not form fluid passage (6) as yet the effect of fluid pressure next time the property bulging be shaped to chuck with required form fluid passage (6).
6. the manufacture method of the jacket canister described in claim 4 or 5 is characterized in that, also comprises step S3 after described step S2:
S3-1: on molded every block of chuck plate (5) that fluid passage (6) arranged, offer delivery outlet (8);
S3-2: have the jacket canister (1) of fluid passage (6) to set output pipe (10) to molded, the delivery outlet (8) of all chuck plates (5) is communicated with output pipe (10) respectively.
7. as the manufacture method of each described jacket canister among the claim 2-5, it is characterized in that, adopt the method for Laser Welding, argon arc welding or electric resistance welding that the described monolithic chuck plate (5) that does not form fluid passage (6) as yet is welded on the described monolithic tank body plate (4).
8. the manufacture method of jacket canister as claimed in claim 1 is characterized in that, described fluid is water or oil.
9. the manufacture method of jacket canister as claimed in claim 1 is characterized in that, described jacket canister (1) is honeycomb jacket jar or jacket with arc-like channel jar.
10. as the manufacture method of each described jacket canister among the claim 2-5, it is characterized in that, comprise that also the cell block (3) that chuck plate (5) and tank body plate (4) are welded together is transported to the step of job site, so that make described jacket canister (1) at the construction field (site).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CNA2007100366412A CN101224547A (en) | 2007-01-19 | 2007-01-19 | Manufacturing method of jacketed tank |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CNA2007100366412A CN101224547A (en) | 2007-01-19 | 2007-01-19 | Manufacturing method of jacketed tank |
Publications (1)
Publication Number | Publication Date |
---|---|
CN101224547A true CN101224547A (en) | 2008-07-23 |
Family
ID=39856868
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CNA2007100366412A Pending CN101224547A (en) | 2007-01-19 | 2007-01-19 | Manufacturing method of jacketed tank |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN101224547A (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102730344A (en) * | 2011-04-15 | 2012-10-17 | 宁波乐惠食品设备制造有限公司 | Jacket unit, jacket tank and manufacture method of jacket tank |
CN104120053A (en) * | 2013-04-26 | 2014-10-29 | 宁波乐惠食品设备制造有限公司 | Dimple jacket fermentation tank |
CN104820736A (en) * | 2015-04-20 | 2015-08-05 | 大族激光科技产业集团股份有限公司 | Method and device for optimizing honeycomb ring generating sequence |
-
2007
- 2007-01-19 CN CNA2007100366412A patent/CN101224547A/en active Pending
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102730344A (en) * | 2011-04-15 | 2012-10-17 | 宁波乐惠食品设备制造有限公司 | Jacket unit, jacket tank and manufacture method of jacket tank |
CN102730344B (en) * | 2011-04-15 | 2015-02-18 | 宁波乐惠食品设备制造有限公司 | Jacket unit, jacket tank and manufacture method of jacket tank |
CN104120053A (en) * | 2013-04-26 | 2014-10-29 | 宁波乐惠食品设备制造有限公司 | Dimple jacket fermentation tank |
CN104820736A (en) * | 2015-04-20 | 2015-08-05 | 大族激光科技产业集团股份有限公司 | Method and device for optimizing honeycomb ring generating sequence |
CN104820736B (en) * | 2015-04-20 | 2018-02-02 | 大族激光科技产业集团股份有限公司 | Optimize the method and apparatus of honeycomb circle genesis sequence |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN101856687B (en) | Current-assisted titanium and titanium alloy corrugated pipe single-bellow continuous forming device and method | |
US7040387B2 (en) | Heat transfer device | |
US20130301379A1 (en) | Layer multiplier for fluids with high viscosity | |
CN101224547A (en) | Manufacturing method of jacketed tank | |
CN105381640A (en) | Disc type laminated filter | |
US4924938A (en) | Heat exchanger base units and modules | |
CN104567110B (en) | End cover for header pipe of micro-channel heat exchanger | |
CN111271994A (en) | Hexagonal detachable welded heat exchanger | |
CN205607185U (en) | Heat exchanger convenient to dismantle heat exchange tube | |
CN100498181C (en) | Multi-thread type heat exchanger and the manufacture method | |
CN113091486B (en) | Micro-channel heat exchanger | |
CN108779967A (en) | Heat exchanger | |
KR20170033006A (en) | A heat-excghange of package type disk bundle | |
CN104729332A (en) | Cylinder member used for cooling and heating | |
CN210242513U (en) | Spiral plate heat exchanger | |
JPH07190649A (en) | Plate type heat exchanger | |
CN102620485A (en) | Detachable plate heat exchanger for heat exchange of cold and heat source fluid such as sewage and refrigerant | |
CN102730344A (en) | Jacket unit, jacket tank and manufacture method of jacket tank | |
CN202072180U (en) | Jacket unit and jacket tank | |
JP2004351488A (en) | Method for producing tubular member having partition plate by hydraulic forming | |
CN105344736A (en) | Extrusion mould for magnesium alloy section bars | |
CN217614660U (en) | Silicon carbide tube plate combined bonding type reactor | |
CN101377390B (en) | Fixed tube sheet type heat exchanger | |
JP4409723B2 (en) | High pressure heat exchanger | |
CN212177411U (en) | Novel double-screw welding pump body |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
C12 | Rejection of a patent application after its publication | ||
RJ01 | Rejection of invention patent application after publication |
Application publication date: 20080723 |