CN220912804U - Digestion furnace for digestion of protein sample - Google Patents
Digestion furnace for digestion of protein sample Download PDFInfo
- Publication number
- CN220912804U CN220912804U CN202322681352.5U CN202322681352U CN220912804U CN 220912804 U CN220912804 U CN 220912804U CN 202322681352 U CN202322681352 U CN 202322681352U CN 220912804 U CN220912804 U CN 220912804U
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- Prior art keywords
- digestion
- cooling
- cooler bin
- cooling box
- groove
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- 102000004169 proteins and genes Human genes 0.000 title claims abstract description 34
- 108090000623 proteins and genes Proteins 0.000 title claims abstract description 34
- 230000029087 digestion Effects 0.000 title claims abstract description 30
- 238000001816 cooling Methods 0.000 claims abstract description 83
- 238000010438 heat treatment Methods 0.000 claims abstract description 42
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 9
- 238000002133 sample digestion Methods 0.000 claims description 2
- 238000002474 experimental method Methods 0.000 abstract description 6
- 238000010586 diagram Methods 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000001514 detection method Methods 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 235000015097 nutrients Nutrition 0.000 description 1
- 239000013589 supplement Substances 0.000 description 1
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Abstract
The utility model discloses a digestion furnace for digesting a protein sample, and relates to the technical field of sample treatment including irradiation, such as heating. This digestion stove is cleared up to protein sample, which comprises a body, the spacing groove has been seted up to the upper surface of body, the diapire of spacing groove is provided with the support frame, support frame inner wall fixedly connected with cooler bin, the upper surface of cooler bin has been seted up rather than communicating logical groove of lower surface, logical groove has been seted up equally to the upper surface of support frame, the inside of logical groove is provided with the heating pipe, the upper end of heating pipe is provided with the collecting pipe, the diapire of spacing groove is provided with initiative cooler bin, initiative cooler bin's left side fixed surface is connected with the motor, initiative cooler bin's inside is provided with cooling structure, through above-mentioned structure, can effectively promote the cooling efficiency of heating pipe, avoid traditional structure to stand a large amount of time that the cooling consumes to a certain extent, thereby reduce the experiment required time, and then indirectly promote experimental efficiency.
Description
Technical Field
The utility model relates to sample treatment including irradiation, for example, the technical field of heating, in particular to a digestion furnace for digesting protein samples.
Background
Proteins (proteins) are important components that make up all cells and tissues of the human body. All important parts of the body need to be protein-involved. In general, proteins account for about 18% of the total mass of the human body, and most importantly are associated with life phenomena.
Protein belongs to one of nutrients necessary for human body, and in the food detection, a digestion experiment of protein is included, and the method is mainly characterized in that a protein sample is placed in a heating pipe and then heated, and after heating, the protein sample is placed still and cooled, and after large cooling, the protein sample is moved into a cooling device for further cooling, and the whole process lasts for about 2-2.5 hours, wherein the time spent for the standing still and cooling is a lot of time, the experiment is more time spent, and the experiment efficiency is relatively low, so in view of the problem, we propose a digestion furnace for digestion of the protein sample.
Disclosure of utility model
The utility model aims to at least solve one of the technical problems in the prior art, and provides a digestion furnace for digesting a protein sample, which can solve the problem of long standing and cooling time.
In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a protein sample is cleared up and is used digestion stove, includes the body, the upper surface of body has been seted up the spacing groove, and the diapire of spacing groove is provided with the support frame, support frame inner wall fixedly connected with cooler bin, and the upper surface of cooler bin has been seted up rather than communicating logical groove of lower surface, and logical groove has also been seted up to the upper surface of support frame, and the inside of leading to the groove is provided with the heating pipe, and the upper end of heating pipe is provided with the collecting pipe, and the diapire of spacing groove is provided with the initiative cooler bin, and the left side surface fixedly connected with motor of initiative cooler bin is provided with cooling structure in the inside of initiative cooler bin.
Preferably, the cooling structure comprises a threaded rod rotatably connected to the bottom wall of the active cooling box, and the output end of the motor rotatably penetrates into the active cooling box.
Preferably, the output end of the motor is fixedly connected with a worm, and the outer surface of the threaded rod is sleeved with a worm wheel.
Preferably, the outer surface of the worm wheel is meshed with the worm, and a limiting chute is formed in the front side surface of the active cooling box.
Preferably, the rear side surface fixedly connected with connecting rod of cooling tank, the rear end of connecting rod extends into the inside of initiative cooling tank through spacing spout.
Preferably, the connecting rod is in sliding connection with the limiting sliding groove, the rear end of the connecting rod is fixedly connected with a driving plate, and the upper end thread of the threaded rod penetrates through the upper surface of the driving plate and is in rotary connection with the top wall of the active cooling box.
Preferably, a hose is arranged on the right side surface of the cooling box, and one end, far away from the cooling box, of the hose penetrates out of the right side surface of the supporting frame.
Preferably, the front side surface of the cooling box is provided with a wind groove, the rear side of the wind groove extends out of the rear side surface of the cooling box, the active cooling box is provided with a fan, and the inside of the cooling box is provided with a water flow groove which is communicated with the hose.
Compared with the prior art, the utility model has the beneficial effects that:
(1) This digestion furnace is cleared up to protein sample places the protein sample back in the heating pipe, inserts the inside of logical groove with the heating pipe, later with collecting tube card in the top of heating pipe, heat later can, after the heating pipe accomplishes the protein sample heating, through motor drive cooling structure with the whole lift up of support frame, and then promote the cooling efficiency of heating pipe, through above-mentioned structure, can effectively promote the cooling efficiency of heating pipe, avoid traditional structure to a certain extent to stand a large amount of time that the cooling consumes to reduce the experiment required time, and then indirectly promote experimental efficiency.
(2) This digestion furnace is cleared up to protein sample, the driving plate drives the connecting rod motion in step, the connecting rod drives cooling tank and support frame in step and removes, and then expose the lower extreme of heating pipe, get into the inside of cooling tank through hose water delivery, further supplementary cooling, the cooling efficiency of the further heating pipe of cooperation of accessible fan and wind groove simultaneously, through above-mentioned structure, can be so that when carrying out the cooling of heating pipe, can realize accelerating refrigerated purpose through the cooperation between a plurality of structures, and then promote refrigerated efficiency, avoid stewing a large amount of time that the cooling consumes.
Drawings
The utility model is further illustrated by the following examples in conjunction with the accompanying drawings:
FIG. 1 is a schematic diagram of a digestion furnace for digesting a protein sample according to the present utility model;
FIG. 2 is a schematic view of a limiting chute according to the present utility model;
FIG. 3 is a schematic view of a launder according to the present utility model;
FIG. 4 is a schematic cooling diagram of the present utility model.
Reference numerals: 1. a body; 2. a limit groove; 3. a support frame; 4. a cooling box; 5. a through groove; 6. heating pipes; 7. a collection pipe; 8. an active cooling tank; 9. a motor; 10. a threaded rod; 11. a worm; 12. a worm wheel; 13. limiting sliding grooves; 14. a connecting rod; 15. a driving plate; 16. a hose; 17. a wind groove; 18. a fan; 19. a water flowing groove.
Detailed Description
Reference will now be made in detail to the present embodiments of the present utility model, examples of which are illustrated in the accompanying drawings, wherein the accompanying drawings are used to supplement the description of the written description so that one can intuitively and intuitively understand each technical feature and overall technical scheme of the present utility model, but not to limit the scope of the present utility model.
In the description of the present utility model, it should be understood that references to orientation descriptions such as upper, lower, front, rear, left, right, etc. are based on the orientation or positional relationship shown in the drawings, are merely for convenience of description of the present utility model and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present utility model.
In the description of the present utility model, greater than, less than, exceeding, etc. are understood to exclude this number, and above, below, within, etc. are understood to include this number. The description of the first and second is for the purpose of distinguishing between technical features only and should not be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.
In the description of the present utility model, unless explicitly defined otherwise, terms such as arrangement, installation, connection, etc. should be construed broadly and the specific meaning of the terms in the present utility model can be reasonably determined by a person skilled in the art in combination with the specific contents of the technical scheme.
Referring to fig. 1-4, the present utility model provides a technical solution: the utility model provides a digestion furnace for protein sample digestion, which comprises a body 1, spacing groove 2 has been seted up to the upper surface of body 1, spacing groove 2's diapire is provided with support frame 3, support frame 3 inner wall fixedly connected with cooler bin 4, the communicating logical groove 5 of its lower surface has been seted up to the upper surface of cooler bin 4, logical groove 5 has also been seted up to the upper surface of support frame 3, logical groove 5's inside is provided with heating pipe 6, the upper end of heating pipe 6 is provided with collecting pipe 7, spacing groove 2's diapire is provided with initiative cooler bin 8, initiative cooler bin 8's left side surface fixedly connected with motor 9, initiative cooler bin 8's inside is provided with cooling structure, place the protein sample behind heating pipe 6, insert the inside of logical groove 5 with heating pipe 6, later with collecting pipe 7 card in the top of heating pipe 6, later heat can, after the heating pipe 6 accomplishes the protein sample heating, drive cooling structure with support frame 3 whole lifts up through motor 9, and then promote the cooling efficiency of heating pipe 6, through above-mentioned structure, can effectively promote the cooling efficiency of heating pipe 6, the required time of the cooling that traditional structure consumed cooling is stood to a certain extent, thereby the indirect experiment efficiency is reduced.
Further, the cooling structure comprises a threaded rod 10, the threaded rod 10 is rotationally connected to the bottom wall of the active cooling box 8, the output end of the motor 9 rotationally penetrates into the active cooling box 8, the output end of the motor 9 is fixedly connected with a worm 11, the outer surface of the threaded rod 10 is sleeved with a worm wheel 12, the outer surface of the worm wheel 12 is in meshed connection with the worm 11, the front side surface of the active cooling box 8 is provided with a limit chute 13, the rear side surface of the cooling box 4 is fixedly connected with a connecting rod 14, the rear end of the connecting rod 14 extends into the active cooling box 8 through the limit chute 13, the connecting rod 14 is in sliding connection with the limit chute 13, the rear end of the connecting rod 14 is fixedly connected with a driving plate 15, the upper end of the threaded rod 10 rotationally penetrates out of the upper surface of the driving plate 15 and is rotationally connected with the top wall of the active cooling box 8, the right side surface of the cooling box 4 is provided with a hose 16, one end of the flexible pipe 16 far away from the cooling box 4 penetrates through the right side surface of the supporting frame 3, an air groove 17 is formed in the front side surface of the cooling box 4, the rear side of the air groove 17 extends out of the rear side surface of the cooling box 4, a fan 18 is arranged on the active cooling box 8, a water flow groove 19 is formed in the cooling box 4, the water flow groove 19 is communicated with the flexible pipe 16, the worm 11 is driven to rotate by the motor 9, the worm 11 synchronously drives the worm wheel 12 to rotate, the worm wheel 12 synchronously drives the threaded rod 10 to rotate, the limit chute 13 limits the movement track of the connecting rod 14, when the threaded rod 10 rotates, the driving plate 15 synchronously drives the connecting rod 14 to move, the connecting rod 14 synchronously drives the cooling box 4 and the supporting frame 3 to expose the lower end of the heating pipe 6, water is conveyed into the cooling box 4 by the flexible pipe 16, and further cooling is assisted, meanwhile, the cooling efficiency of the heating pipe 6 can be further improved through the matching of the fan 18 and the air groove 17, and through the structure, the purpose of accelerating cooling can be achieved through the matching among a plurality of structures when the heating pipe 6 is cooled, so that the cooling efficiency is improved, and a large amount of time consumed by standing cooling is avoided.
Working principle: after placing the protein sample in heating pipe 6, insert the inside of logical groove 5 with heating pipe 6, later with collecting pipe 7 card in the top of heating pipe 6, later heat can, after heating pipe 6 is accomplished the protein sample heating, drive cooling structure through motor 9 and lift up support frame 3 is whole, and then promote the cooling efficiency of heating pipe 6, motor 9 drives worm 11 and rotates, worm 11 drives worm wheel 12 in step and rotates, worm wheel 12 drives threaded rod 10 in step and rotates, because spacing spout 13 forms the restriction to the motion track of connecting rod 14, so when threaded rod 10 rotates, can drive plate 15 in step and carry out the motion of vertical direction, drive plate 15 drives connecting rod 14 in step and moves, connecting rod 14 drives cooling tank 4 and support frame 3 in step, and then expose the lower extreme of heating pipe 6, enter the inside of cooling tank 4 through hose 16 water delivery, further supplementary cooling, the cooling efficiency of further heating pipe 6 of accessible fan 18 and the cooperation of wind groove 17 simultaneously.
The embodiments of the present utility model have been described in detail with reference to the accompanying drawings, but the present utility model is not limited to the above embodiments, and various changes can be made within the knowledge of one of ordinary skill in the art without departing from the spirit of the present utility model.
Claims (8)
1. The utility model provides a protein sample digestion uses digester, includes body (1), its characterized in that: the utility model discloses a cooling device for the solar energy collection device, including body (1), spacing groove (2) has been seted up to the upper surface of body (1), the diapire of spacing groove (2) is provided with support frame (3), support frame (3) inner wall fixedly connected with cooler bin (4), logical groove (5) rather than the lower surface communicating are seted up to the upper surface of cooler bin (4), logical groove (5) have also been seted up to the upper surface of support frame (3), the inside of logical groove (5) is provided with heating pipe (6), the upper end of heating pipe (6) is provided with collecting pipe (7), the diapire of spacing groove (2) is provided with initiative cooler bin (8), the left side fixed surface of initiative cooler bin (8) is connected with motor (9), the inside of initiative cooler bin (8) is provided with cooling structure.
2. The digestion furnace for digestion of protein samples as set forth in claim 1, wherein: the cooling structure comprises a threaded rod (10), the threaded rod (10) is rotationally connected to the bottom wall of the active cooling box (8), and the output end of the motor (9) is rotationally penetrated into the active cooling box (8).
3. The digestion furnace for digestion of protein samples as set forth in claim 2, wherein: the output end of the motor (9) is fixedly connected with a worm (11), and the outer surface of the threaded rod (10) is sleeved with a worm wheel (12).
4. A digestion vessel for digestion of protein samples as set forth in claim 3, wherein: the outer surface of the worm wheel (12) is connected with the worm (11) in a meshed mode, and a limiting chute (13) is formed in the front side surface of the active cooling box (8).
5. The digestion furnace for digestion of protein samples as set forth in claim 4, wherein: the rear side surface of cooling tank (4) fixedly connected with connecting rod (14), the rear end of connecting rod (14) is through spacing spout (13) extension into the inside of initiative cooling tank (8).
6. The digestion furnace for digestion of protein samples as set forth in claim 5, wherein: the connecting rod (14) is in sliding connection with the limiting chute (13), the rear end of the connecting rod (14) is fixedly connected with the driving plate (15), and the upper end thread of the threaded rod (10) penetrates through the upper surface of the driving plate (15) and is in rotary connection with the top wall of the active cooling box (8).
7. The digestion furnace for digestion of protein samples as set forth in claim 5, wherein: the right side surface of cooling tank (4) is provided with hose (16), and the one end that cooling tank (4) were kept away from to hose (16) runs through the right side surface of support frame (3).
8. The digestion furnace for digestion of protein samples as set forth in claim 7, wherein: the cooling device is characterized in that an air duct (17) is formed in the front side surface of the cooling box (4), the rear side of the air duct (17) extends out of the rear side surface of the cooling box (4), a fan (18) is arranged on the active cooling box (8), a water flowing groove (19) is formed in the cooling box (4), and the water flowing groove (19) is communicated with the hose (16).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202322681352.5U CN220912804U (en) | 2023-10-08 | 2023-10-08 | Digestion furnace for digestion of protein sample |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202322681352.5U CN220912804U (en) | 2023-10-08 | 2023-10-08 | Digestion furnace for digestion of protein sample |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN220912804U true CN220912804U (en) | 2024-05-07 |
Family
ID=90919037
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202322681352.5U Active CN220912804U (en) | 2023-10-08 | 2023-10-08 | Digestion furnace for digestion of protein sample |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN220912804U (en) |
-
2023
- 2023-10-08 CN CN202322681352.5U patent/CN220912804U/en active Active
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