CN207153671U - Parallel reactor - Google Patents
Parallel reactor Download PDFInfo
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- CN207153671U CN207153671U CN201721082998.XU CN201721082998U CN207153671U CN 207153671 U CN207153671 U CN 207153671U CN 201721082998 U CN201721082998 U CN 201721082998U CN 207153671 U CN207153671 U CN 207153671U
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- module
- parallel reactor
- refrigerating
- supporting
- test tube
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Abstract
It the utility model is related to a kind of parallel reactor, including the heating module for holding test tube, and the refrigerating module above heating module, supporting module is correspondingly arranged between heating module and refrigerating module, height-regulating device is set between refrigerating module and supporting module, height-regulating device includes fixing with refrigerating module, and the telescopic component being slidably connected with supporting module, and is arranged between refrigerating module and supporting module, fixes refrigerating module and the positioning component of supporting module relative position.The parallel reactor has the relative position of refrigerating module and heating module adjustable, is adapted to the test tube of different height.
Description
Technical field
It the utility model is related to use for laboratory reaction frame, more particularly to a kind of parallel reactor.
Background technology
Biochemical Lab is done, to examine experiment effect, it usually needs do unitary variant experiment, or done under identical conditions
Multigroup experiment.In order to simplify experimental implementation, and experimental result is accurately controlled, container used in experiment can be put in parallel reactor
In reacted.
Authorization Notice No. is that CN205659685 patent discloses a kind of parallel reaction instrument, and the parallel reaction instrument includes adding
Thermal modules, and the refrigerating module corresponding with heating module, the standing grooves of some placement test tubes are opened up on heating module,
The opening position corresponding with standing groove opens up through hole on refrigerating module.Test tube is put into standing groove through through hole, can be to putting
Enter the test tube in standing groove while heat, or cool down simultaneously.
But the relative position of refrigerating module and heating module is fixed in the program, tried when needing the higher experiment of placement
Guan Shi, refrigerating module can not more uniformly cooling test test tubes.
Utility model content
The purpose of this utility model is to provide a kind of parallel reactor, and it has the relative of refrigerating module and heating module
Position is adjustable, is adapted to the test tube of different height.
Above-mentioned technical purpose of the present utility model technical scheme is that:A kind of parallel reactor,
Including the heating module for holding test tube, and the refrigerating module above heating module, heating module and refrigerating module
Between be correspondingly arranged supporting module, height-regulating device is set between refrigerating module and supporting module, and height-regulating device includes and cooling mould
Block is fixed, and the telescopic component being slidably connected with supporting module, and is arranged between refrigerating module and supporting module, is fixed cold
But the positioning component of module and supporting module relative position.
Using above technical scheme, test tube is put into heating module through refrigerating module, supporting module, if the height of test tube
During higher than spacing between supporting module and heating module, upward sliding refrigerating module, refrigerating module is away from supporting module, increase
Spacing between refrigerating module and heating module, to adapt to the height of test tube.The position adjustments of refrigerating module well after, will position
Modular support is positioned temporarily between refrigerating module and supporting module, to the relative position of refrigerating module and supporting module.
Further, positioning component includes the upper rail and lower guideway being symmetricly set on refrigerating module and supporting module,
Two articulated linkages, articulated linkage V-shaped setting are set between upper rail and lower guideway, two articulated linkages intersect, and
Intersection is hinged;Two ends of one of articulated linkage are slidably connected with upper rail and lower guideway respectively, and another is be hinged
Two ends of connecting rod are hinged with upper rail and lower guideway respectively;Set through two articulated linkages and drive an articulated linkage edge
The adjusting screw rod that upper rail and lower guideway slide.
Using above technical scheme, adjusting screw rod is rotated, one of articulated linkage is slided along upper rail and lower guideway, should
Two ends of articulated linkage accordingly extend close to two ends of another articulated linkage, articulated linkage, and refrigerating module is away from branch
Hold mode block.Adjusting screw rod is rotated backward, one of articulated linkage is slided along upper rail and lower guideway, to the two of the articulated linkage
Two ends of the individual end away from another articulated linkage, articulated linkage are accordingly compressed, and refrigerating module is close to supporting module.
Further, positioning component is symmetrical arranged two groups, connects respectively between symmetrical articulated linkage in two positioning components
Gangbar is connect, adjusting screw rod is set through two gangbar.
Using above technical scheme, rotate adjusting screw rod, can control simultaneously two positioning components articulated linkage elongation or
Person shrinks, and the spacing regulation between refrigerating module and supporting module is more stable.
Further, telescopic component includes the sleeve set in supporting module, and loop bar, loop bar are accordingly fixed on refrigerating module
It is slidably connected with sleeve.
Using above technical scheme, telescopic component plays guide effect, and refrigerating module is steadily close to or away from branch hold mode
Block.
Further, some standing grooves for holding test tubes are opened up on heating module, through refrigerating module and branch hold mode
Block accordingly opens up setting-out hole corresponding with standing groove.
Using above technical scheme, some setting-out passages are set through refrigerating module, supporting module and heating module, can be put down
Row sets multigroup control experiment.
Further, the side wall of standing groove opens up visual window.
For test tube through when refrigerating module, supporting module and heating module setting, the bottom of test tube is completely placed in placement
In groove.If the amount of liquid added in test tube is fewer, the response situation of sample can be observed by visual window.
Further, heating module bottom sets adjusting base, and adjusting base is rotatablely connected with heating module.
Due to setting multiple standing grooves on heating module, if the test tube being put into apart from operator farther out, can be relative to regulation
Base rotation parallel reactor, test tube is turned to the opening position for facilitating operator to observe.
Further, heating module bottom opens up holding tank, and the fix bar coordinated with holding tank is set on adjusting base,
Bearing is set between fix bar and holding tank.
Using above technical scheme, when rotating parallel reactor, test tube has been put well in parallel reactor.Rotated to reduce
Influence of the parallel reactor to test tube, bearing is set between adjusting base and holding tank, reduces rotary resistance.
In summary, the utility model has the advantages that:
1st, set between refrigerating module and supporting module and heighten component, operator can accordingly adjust cold according to the height of test tube
But the spacing between module and supporting module, and then parallel reactor is adapted to the test tube of different height;
2nd, heating module bottom sets adjusting base, and heating module can rotate relative to adjusting base.Operator can turn
The upper end of dynamic parallel reactor, is easy to observation to be placed on the response situation of sample in the test tube at diverse location.
Brief description of the drawings
Fig. 1 is the structural representation of parallel reactor;
Fig. 2 is the sectional view in A-A directions in Fig. 1;
Fig. 3 is the sectional view of parallel reactor, to show telescopic component;
Fig. 4 is the connection relationship diagram of supporting module, refrigerating module and positioning component;
Fig. 5 is the exploded perspective view of parallel reactor, with vision-control base;
In figure, 1, heating module;11st, standing groove;12nd, visual window;13rd, holding tank;2nd, supporting module;21st, supported hole;3、
Support column;4th, refrigerating module;41st, it is put into hole;42nd, cooling duct;43rd, inlet;44th, liquid outlet;5th, height-regulating device;51st, stretch
Contracting component;511st, sleeve;512nd, loop bar;52nd, positioning component;521st, upper rail;522nd, lower guideway;523rd, articulated linkage;524、
Gangbar;525th, adjusting screw rod;6th, adjusting base;61st, fix bar;62nd, base;63rd, bearing.
Embodiment
The utility model is described in further detail below in conjunction with accompanying drawing.Wherein identical parts identical accompanying drawing
Mark represents.It should be noted that the word "front", "rear", "left", "right", the "up" and "down" that are used below in description refer to
It is the direction in accompanying drawing, word " bottom surface " and " top surface ", " interior " and " outer " are referred respectively to towards or away from particular elements geometry
The direction at center.
A kind of parallel reactor, as shown in figure 1, including heating module 1, heating module 1 is located at whole parallel reactor
Bottom;The top of heating module 1 is correspondingly arranged supporting module 2, and support column 3 is used between supporting module 2 and heating module 1
Support.The top of supporting module 2 sets refrigerating module 4, and height-regulating device 5 is set between refrigerating module 4 and supporting module 2, cold to adjust
But the relative altitude of module 4 and supporting module 2.Test tube used in experiment is put in heating module through refrigerating module 4, supporting module 2
On 1, refrigerating module 4 and supporting module 2 accordingly adjust the spacing of the two according to the height of test tube, to adapt to the examination of different height
Pipe.
Heating module 1 is aluminium block, and aluminium block circumferentially uniformly opens up some standing grooves 11 along it, and reactant is added for placing
Test tube.Meanwhile the side of standing groove 11 opens up otch and forms visual window 12, after test tube is put into standing groove 11, operator may pass through
Visual window 12 observes the response situation of test tube interior.
Supporting module 2 is located at the top of heating module 1, is fixed between supporting module 2 and heating module 1 using support column 3.Branch
Some supported holes 21 corresponding with standing groove 11 are accordingly opened up on hold mode block 2, test tube is put in standing groove 11 through supported hole 21.
Refrigerating module 4 is set in the top of supporting module 2, and refrigerating module 4 is relative with supporting module 2 and heating module 1 to be set
Put, opened up on refrigerating module 4 and corresponding with supported hole 21 be put into hole 41.Hole 41, supported hole 21 and standing groove 11 is put into set relatively
Put, test tube is inserted in parallel reactor from hole 41 is put into.
With reference to Fig. 1 and Fig. 2, for convenience of test tube is cooled down, in refrigerating module 4 winding be put into hole 41 and cooling duct 42 be set, it is cold
But the one end of passage 42 is inlet 43, and the other end is liquid outlet 44.In experimentation, cooling water injects from inlet 43, through cold
But passage 42 is flowed out around hole 41 is put into from liquid outlet 44, and recirculated cooling water is persistently provided for parallel reactor.
With reference to Fig. 1 and Fig. 3, because the height of test tube used in reaction is different, set between supporting module 2 and refrigerating module 4
Height-regulating device 5, height-regulating device 5 includes telescopic component 51, to adjust the relative altitude between refrigerating module 4 and supporting module 2;Also
Including positioning component 52, the refrigerating module 4 and the relative altitude of supporting module 2 regulated is fixed.
Wherein, telescopic component 51 includes the sleeve 511 being fixedly supported between supporting module 2 and heating module 1, sleeve
511 pass through supporting module 2, concordant with the upper surface of supporting module 2.The bottom of refrigerating module 4 position relative with sleeve 511
The fixed loop bar 512 in place, loop bar 512 extends downwardly from the bottom of refrigerating module 4, and is slidably connected with sleeve 511.
With reference to Fig. 1 and Fig. 4, positioning component 52 includes the upper rail being symmetricly set between refrigerating module 4 and supporting module 2
521 and lower guideway 522, a pair of articulated linkages 523 are set between upper rail 521 and lower guideway 522.Articulated linkage 523 is by two
V-shaped be hinged connecting rod composition, the opening of two articulated linkages 523 is relative, and is staggered;And two articulated linkages 523
Intersecting opening position is also connected using articulated manner.Two ends of one of which articulated linkage 523 respectively with upper rail 521 and
Lower guideway 522 is slidably connected, and two ends of another group of articulated linkage 523 are be hinged with upper rail 521 and lower guideway 522 respectively.
Positioning component 52 is oppositely arranged in parallel two groups between refrigerating module 4 and supporting module 2, in two groups of positioning components 52
The V-type jointed shaft of articulated linkage 523 is connected using gangbar 524, and gangbar 524 is symmetrical arranged two in two groups of positioning components 52
It is individual, through two gangbar 524, adjusting screw rod 525 is set.When rotating adjusting screw rod 525, two gangbar 524 are close or remote
From, and then the relative support module 2 of refrigerating module 4 is raised or is reduced, to adapt to the test tube of different height.
In addition, after piling test tube in parallel reactor, if the response situation of test tube of operator's observation away from operator
When rotate, it is necessary to lift parallel reactor or walk about to corresponding position and observed, it is more inconvenient.With reference to Fig. 1 and Fig. 5,
Holding tank 13 is opened up in the bottom of heating module 1, adjusting base 6 is set in holding tank 13.Adjusting base 6 exceeds including bottom and added
The base 62 of the bottom of thermal modules 1, base 62 are centrally disposed with the integrally formed fix bar 61 of base 62.The insertion of fix bar 61 is held
Receive groove 13, bearing 63 is arranged outside fix bar 61, the outer ring of bearing 63 is chimeric with the side wall of holding tank 13.Adjusting base 6 is placed in operation
On platform, when operator rotates parallel reactor, parallel reactor upper end rotates relative to adjusting base 6, and person easy to operation sees
Examine the response situation for the test tube for being positioned over diverse location.
In use, in vitro portion is put into the material of question response, test tube is inserted in parallel reactor from hole 41 is put into, test tube
It is located at through supported hole 21 in standing groove 11.After the completion of test tube is placed, rotate adjusting screw rod 525, it is corresponding adjust refrigerating module 4 with
The relative altitude of supporting module 2, to adapt to the height of test tube.After the completion of regulation, cooling water can be passed through in refrigerating module 4, or
Person heats to heating module 1.In course of reaction, operator only rotates parallel reactor, you can observation is placed on different positions
The response situation for the test tube put.
This specific embodiment is only that it is not to limitation of the present utility model, ability to explanation of the present utility model
Field technique personnel can make the modification of no creative contribution to the present embodiment as needed after this specification is read, but
As long as all protected in right of the present utility model by Patent Law.
Claims (8)
1. a kind of parallel reactor, including for holding the heating module of test tube(1), and positioned at heating module(1)Top
Refrigerating module(4), it is characterised in that:Heating module(1)And refrigerating module(4)Between be correspondingly arranged supporting module(2), cool down mould
Block(4)And supporting module(2)Between height-regulating device is set(5);Height-regulating device(5)Including with refrigerating module(4)It is fixed and with branch
Hold mode block(2)The telescopic component being slidably connected(51), and it is arranged on refrigerating module(4)And supporting module(2)Between, fixation it is cold
But module(4)And supporting module(2)The positioning component of relative position(52).
2. parallel reactor according to claim 1, it is characterised in that:Positioning component(52)Including being symmetricly set on cooling
Module(4)And supporting module(2)On upper rail(521)And lower guideway(522), upper rail(521)And lower guideway(522)Between
Two articulated linkages are set(523), articulated linkage(523)V-shaped setting, two articulated linkages(523)It is intersecting, and intersecting
Place is be hinged;One of articulated linkage(523)Two ends respectively with upper rail(521)And lower guideway(522)It is slidably connected,
Another articulated linkage(523)Two ends respectively with upper rail(521)And lower guideway(522)It is be hinged;It is be hinged through two
Connecting rod(523)An articulated linkage is driven in setting(523)Along upper rail(521)And lower guideway(522)The adjusting screw rod of slip
(525).
3. parallel reactor according to claim 2, it is characterised in that:Positioning component(52)It is symmetrical arranged two groups, two
Positioning component(52)In symmetrical articulated linkage(523)Between connect gangbar respectively(524), through two gangbar(524)
Adjusting screw rod is set(525).
4. parallel reactor according to claim 1, it is characterised in that:Telescopic component(51)Including supporting module(2)On
The sleeve of setting(511), refrigerating module(4)Upper corresponding fixed loop bar(512), loop bar(512)With sleeve(511)It is slidably connected.
5. parallel reactor according to claim 1, it is characterised in that:Heating module(1)On open up it is some be used for place
The standing groove of test tube(11), through refrigerating module(4)And supporting module(2)It is corresponding to open up and standing groove(11)Corresponding setting-out hole
(21、41).
6. parallel reactor according to claim 5, it is characterised in that:Standing groove(11)Side wall open up visual window
(12).
7. parallel reactor according to claim 1, it is characterised in that:Heating module(1)Bottom sets adjusting base
(6), adjusting base(6)With heating module(1)Rotation connection.
8. parallel reactor according to claim 7, it is characterised in that:Heating module(1)Bottom opens up holding tank
(13), adjusting base(6)Upper setting and holding tank(13)The fix bar of cooperation(61), fix bar(61)With holding tank(13)Between
Bearing is set(63).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721082998.XU CN207153671U (en) | 2017-08-26 | 2017-08-26 | Parallel reactor |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721082998.XU CN207153671U (en) | 2017-08-26 | 2017-08-26 | Parallel reactor |
Publications (1)
Publication Number | Publication Date |
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CN207153671U true CN207153671U (en) | 2018-03-30 |
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ID=61718548
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CN201721082998.XU Active CN207153671U (en) | 2017-08-26 | 2017-08-26 | Parallel reactor |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111318240A (en) * | 2018-12-13 | 2020-06-23 | 郑州凯鹏实验仪器有限公司 | Novel parallel reaction instrument |
-
2017
- 2017-08-26 CN CN201721082998.XU patent/CN207153671U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111318240A (en) * | 2018-12-13 | 2020-06-23 | 郑州凯鹏实验仪器有限公司 | Novel parallel reaction instrument |
CN111318240B (en) * | 2018-12-13 | 2022-04-26 | 郑州凯鹏实验仪器有限公司 | Novel parallel reaction instrument |
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TR01 | Transfer of patent right |
Effective date of registration: 20210901 Address after: 405299 building 10, Shuanggui group, Liangping Industrial Park, Chongqing Patentee after: Chongqing Xinwei Glass Co.,Ltd. Address before: 102212 middle of Xingshou Industrial Park, Changping District, Beijing Patentee before: BEIJING SYNTHWARE GLASS INSTRUMENT Co.,Ltd. |