CN219607059U - Industrial steam temperature and pressure reducing device - Google Patents
Industrial steam temperature and pressure reducing device Download PDFInfo
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- CN219607059U CN219607059U CN202320508811.7U CN202320508811U CN219607059U CN 219607059 U CN219607059 U CN 219607059U CN 202320508811 U CN202320508811 U CN 202320508811U CN 219607059 U CN219607059 U CN 219607059U
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Abstract
The utility model discloses an industrial steam temperature and pressure reducing device, which comprises: the device comprises a pressure adjusting box, a pair of drainage tubes and a temperature adjusting box, wherein the pair of drainage tubes are inserted on two sides of the pressure adjusting box, the temperature adjusting box is arranged on the pressure adjusting box, a pressure adjusting structure is arranged on the pressure adjusting box, and the temperature adjusting box is connected to the pressure adjusting structure through the temperature adjusting structure; the utility model relates to the technical field of industrial steam, wherein the pressure of the inner side of a pressure regulating box is regulated through a pressure regulating structure, and part of gas in the inner side of the pressure regulating box is regulated to be in a negative pressure state, so that the effect of mixing and reducing pressure is achieved, and meanwhile, the effect of mixing and reducing temperature is achieved by draining steam to the inner side of a cooling box, and the effect of reducing pressure one by one is achieved by regulating the pressure one by one.
Description
Technical Field
The utility model relates to the technical field of industrial steam, in particular to an industrial steam temperature and pressure reducing device.
Background
The temperature and pressure reducing device is a steam heat energy parameter conversion device and an energy saving device for utilizing waste heat, which are widely applied to heat energy engineering by enterprises such as cogeneration, central heating, light industry, electric power, chemical industry and textile industry in modern industry, and the steam parameter provided by a user is reduced to proper temperature and pressure required by the user through the device so as to meet the requirement of the user, and the heat energy can be fully saved and reasonably used; the prior industrial steam temperature and pressure reducing device has relatively poor use effect, can not simultaneously reduce the temperature of the industrial steam from the inner aspect and the outer aspect, has relatively low temperature reducing efficiency, and is relatively laborious and troublesome for adjusting the flow rate and the pressure of the industrial steam, so that the design of the industrial steam temperature and pressure reducing device is necessary.
Disclosure of Invention
In order to achieve the above purpose, the utility model is realized by the following technical scheme: an industrial steam temperature and pressure reducing device comprising: the device comprises a pressure adjusting box, a pair of drainage tubes and a temperature adjusting box, wherein the pair of drainage tubes are inserted on two sides of the pressure adjusting box, the temperature adjusting box is arranged on the pressure adjusting box, a pressure adjusting structure is arranged on the pressure adjusting box, and the temperature adjusting box is connected to the pressure adjusting structure through the temperature adjusting structure;
the pressure regulating structure comprises: two pairs of pressure regulating boxes, two pairs of lifting drivers, two pairs of lifting gearboxes, two pairs of lifting threaded pipes, two pairs of lifting threaded rods, two pairs of lifting squeeze plates, two pairs of L-shaped drainage pipes, two pairs of L-shaped exhaust pipes, four pairs of control valves and two pairs of pressure sensors;
the two pairs of pressure regulating boxes are mounted on the pressure regulating boxes, the two pairs of lifting threaded pipes are respectively inserted on the two pairs of pressure regulating boxes through bearings, the two pairs of lifting threaded pipes are respectively movably inserted on the two pairs of pressure regulating boxes, the two pairs of lifting threaded pipes are respectively movably inserted on the inner sides of the two pairs of lifting threaded pipes, the two pairs of lifting extruding plates are respectively mounted on the two pairs of lifting threaded pipes, the two pairs of lifting driving machine driving ends are respectively connected on the two pairs of pressure regulating boxes, the two pairs of L-shaped drainage pipes and the two pairs of L-shaped exhaust pipes are respectively inserted on the two pairs of pressure regulating boxes, the two pairs of L-shaped drainage pipes and the two pairs of L-shaped exhaust pipes are connected on the pressure regulating boxes, and the four pairs of control valves are respectively mounted on the two pairs of L-shaped drainage pipes and the two pairs of L-shaped exhaust pipes, and the two pairs of pressure sensors are respectively mounted on the two pairs of pressure regulating boxes.
Preferably, the temperature adjusting structure comprises: the device comprises a radiator, a cooler, a cooling fan, a diversion and drainage feeding valve pipe, a diversion and drainage discharging valve pipe, a plurality of radiating fins, a pair of rectangular air inflation pipes and a pair of air inflation pumps;
the radiator is installed on the temperature regulation box, the cooler is installed in the inboard of temperature regulation box, cooling fan install in on the radiator, shunt drainage material loading valve pipe and shunt drainage discharge valve pipe install respectively in on the temperature regulation box, a plurality of fin even install in on the temperature regulation box, a pair of the shape gas tube that returns install in on the temperature regulation box, and a pair of the shape gas tube that returns just faces on a plurality of fin, a pair of the pump is installed respectively on a pair of the shape gas tube that returns.
Preferably, the pressure regulating box and the temperature regulating box are arranged on the same.
Preferably, tesla valve blocks are respectively arranged on the inner sides of the two pairs of L-shaped drainage pipes and the two pairs of L-shaped exhaust pipes.
Preferably, the pressure regulating box is provided with a stirring bracket.
Preferably, the stirring bracket is provided with a stirring and mixing fan.
Advantageous effects
The utility model provides an industrial steam temperature and pressure reducing device. The beneficial effects are as follows: the workerIndustry steam temperature and pressure reduction device adjusts the pressure of the inner side of a pressure adjusting box through a pressure adjusting structure, and adjusts partial gas of the inner side of the pressure adjusting box into a negative pressure state, so that the effect of mixed pressure reduction is achieved, and meanwhile, steam is led to the inner side of a cooling box, so that the effect of mixed temperature reduction is achieved, and the effect of pressure reduction is achieved one by one through pressure adjustment one by one 。
Drawings
Fig. 1 is a schematic view of a partial sectional view of an industrial steam temperature and pressure reducing device according to the present utility model.
Fig. 2 is a schematic side cross-sectional view of an industrial steam temperature and pressure reducing device according to the present utility model.
Fig. 3 is a schematic front sectional view of an industrial steam temperature and pressure reducing device according to the present utility model.
In the figure: 1. a pressure regulating box; 2. a drainage tube; 3. a temperature regulating box; 4. a pressure regulating tank; 5. a lifting driver; 6. a lifting gear box; 7. lifting the threaded pipe; 8. lifting the threaded rod; 9. lifting the extrusion plate; 10. an L-shaped drainage tube; 11. an L-shaped exhaust pipe; 12. a control valve; 13. a heat sink; 14. a cooler; 15. a cooling fan; 16. a shunt drainage feeding valve pipe; 17. a diversion drainage discharge valve pipe; 18. a heat sink; 19. a circular air charging tube; 20. an inflator pump.
Detailed Description
All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
All electric parts and the adaptive power supply are connected through wires by the person skilled in the art, and a proper controller and encoder should be selected according to actual conditions so as to meet control requirements, specific connection and control sequence, and the electric connection is completed by referring to the following working principles in the working sequence among the electric parts, and the detailed connection means are known in the art, and mainly introduce the working principles and processes as follows, and do not describe the electric control.
Examples:
as shown in fig. 1-3, a pair of drainage tubes 2 are inserted on two sides of the pressure regulating box 1, the temperature regulating box 3 is installed on the pressure regulating box 1, a pressure regulating structure is installed on the pressure regulating box 1, and the temperature regulating box 3 is connected to the pressure regulating structure through the temperature regulating structure.
Specifically, the pressure regulating structure comprises: two pairs of pressure regulating boxes 4, two pairs of lifting drivers 5, two pairs of lifting gearboxes 6, two pairs of lifting threaded pipes 7, two pairs of lifting threaded rods 8, two pairs of lifting squeeze plates 9, two pairs of L-shaped drainage pipes 10, two pairs of L-shaped exhaust pipes 11, four pairs of control valves 12 and two pairs of pressure sensors;
specifically, two pairs of pressure regulating boxes 4 are installed on pressure regulating boxes 1, two pairs of lifting threaded pipes 7 are respectively inserted on two pairs of pressure regulating boxes 4 through bearings, two pairs of lifting threaded pipes 7 are respectively movably inserted on two pairs of pressure regulating boxes 4, two pairs of lifting threaded rods 8 are respectively movably inserted on two pairs of inner sides of lifting threaded pipes, two pairs of lifting extrusion plates 9 are respectively installed on two pairs of lifting threaded rods, two pairs of lifting drive machine 5 driving ends are respectively connected on two pairs of pressure regulating boxes 4, two pairs of L-shaped drainage pipes 10 and two pairs of L-shaped exhaust pipes 11 are respectively inserted on two pairs of pressure regulating boxes 4, and two pairs of L-shaped drainage pipes 10 and two pairs of L-shaped exhaust pipes 11 are connected on pressure regulating boxes 1, four pairs of control valves 12 are respectively installed on two pairs of L-shaped drainage pipes 10 and two pairs of L-shaped exhaust pipes 11, and two pairs of pressure sensors are respectively installed on two pairs of pressure regulating boxes 4.
In the foregoing description, steam is led to the inner side of the pressure adjusting box 1 through the drainage tube 2, the lifting gearboxes 6 on the driving ends of the two pairs of lifting driving machines 5 are respectively driven to run through the two pairs of lifting driving machines 5, the lifting threaded pipes 7 on the inner sides of the two pairs of lifting gearboxes 6 are driven to rotate, the lifting threaded pipes 8 on the inner sides are driven through the lifting threaded pipes 7, the lifting threaded pipes 8 are respectively lifted along the inner sides of the lifting threaded pipes 7, the lifting extrusion plate 9 on the lifting threaded pipes 8 is driven to lift, the lifting extrusion plate 9 is lifted along the inner sides of the pressure adjusting box 4, so that the steam on the inner sides of the pressure adjusting box 1 is led to the inner sides of the pressure adjusting box 4, when the lifting extrusion plate 9 is lifted to a certain height, the inner sides of the pressure adjusting box 4 are sealed, and then lifted continuously, so that the air pressure on the inner sides of the pressure adjusting box 4 is reduced, the effect of pressure is achieved, the two pairs of L-shaped drainage tubes 10 and the two pairs of L-shaped exhaust pipes 11 are controlled in a sealing manner through the control valve 12, and the inner sides of the two pairs of pressure adjusting boxes 4 are cooled through the temperature adjusting structure.
As shown in fig. 1 to 3, the temperature adjusting structure comprises: radiator 13, cooler 14, cooling fan 15, diversion and drainage feeding valve pipe 16, diversion and drainage discharging valve pipe 17, a plurality of cooling fins 18, a pair of circular air charging pipes 19 and a pair of air charging pumps 20;
specifically, the radiator 13 is installed on the temperature regulation box 3, the cooler 14 is installed in the inboard of the temperature regulation box 3, the cooling fan 15 is installed on the radiator 13, the shunt drainage material loading valve pipe and the shunt drainage material unloading valve pipe 17 are installed respectively on the temperature regulation box 3, a plurality of fin 18 even install on the temperature regulation box 3, a pair of rectangular air inflation tube 19 install in on the temperature regulation box 3, and a pair of rectangular air inflation tube 19 is just over to on a plurality of fin 18, a pair of air pump 20 is installed respectively on a pair of rectangular air inflation tube 19.
In the above description, the air inside the temperature adjusting tank 3 is cooled by the cooler 14, the heat inside the cooler 14 is emitted by the radiator 13, the radiator 13 is cooled by the cooling fan 15, the gas inside the pressure adjusting tank 1 is cooled by the split-flow drainage feeding valve pipe 16 and the split-flow drainage discharging valve pipe 17, and meanwhile, the air pump 20 inflates the rectangular air tube 19, and the plurality of cooling fins 18 are cooled by the rectangular air tube 19.
Preferably, the pressure regulating box 1 and the temperature regulating box 3 are further arranged.
Preferably, tesla valve blocks are respectively arranged on the inner sides of the two pairs of the L-shaped drainage pipes 10 and the two pairs of the L-shaped exhaust pipes 11.
As a preferable scheme, further, the pressure regulating box 1 is provided with a stirring bracket.
Preferably, the stirring bracket is further provided with a stirring and mixing fan.
Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.
Claims (6)
1. An industrial steam temperature and pressure reducing device comprising: the device comprises a pressure adjusting box, a pair of drainage tubes and a temperature adjusting box, and is characterized in that the pair of drainage tubes are inserted on two sides of the pressure adjusting box, the temperature adjusting box is arranged on the pressure adjusting box, a pressure adjusting structure is arranged on the pressure adjusting box, and the temperature adjusting box is connected to the pressure adjusting structure through the temperature adjusting structure;
the pressure regulating structure comprises: two pairs of pressure regulating boxes, two pairs of lifting drivers, two pairs of lifting gearboxes, two pairs of lifting threaded pipes, two pairs of lifting threaded rods, two pairs of lifting squeeze plates, two pairs of L-shaped drainage pipes, two pairs of L-shaped exhaust pipes, four pairs of control valves and two pairs of pressure sensors;
the two pairs of pressure regulating boxes are mounted on the pressure regulating boxes, the two pairs of lifting threaded pipes are respectively inserted on the two pairs of pressure regulating boxes through bearings, the two pairs of lifting threaded pipes are respectively movably inserted on the two pairs of pressure regulating boxes, the two pairs of lifting threaded pipes are respectively movably inserted on the inner sides of the two pairs of lifting threaded pipes, the two pairs of lifting extruding plates are respectively mounted on the two pairs of lifting threaded pipes, the two pairs of lifting driving machine driving ends are respectively connected on the two pairs of pressure regulating boxes, the two pairs of L-shaped drainage pipes and the two pairs of L-shaped exhaust pipes are respectively inserted on the two pairs of pressure regulating boxes, the two pairs of L-shaped drainage pipes and the two pairs of L-shaped exhaust pipes are connected on the pressure regulating boxes, and the four pairs of control valves are respectively mounted on the two pairs of L-shaped drainage pipes and the two pairs of L-shaped exhaust pipes, and the two pairs of pressure sensors are respectively mounted on the two pairs of pressure regulating boxes.
2. The industrial steam temperature and pressure reducing device according to claim 1, wherein the temperature adjusting structure comprises: the device comprises a radiator, a cooler, a cooling fan, a diversion and drainage feeding valve pipe, a diversion and drainage discharging valve pipe, a plurality of radiating fins, a pair of rectangular air inflation pipes and a pair of air inflation pumps;
the radiator is installed on the temperature regulation box, the cooler is installed in the inboard of temperature regulation box, cooling fan install in on the radiator, shunt drainage material loading valve pipe and shunt drainage discharge valve pipe install respectively in on the temperature regulation box, a plurality of fin even install in on the temperature regulation box, a pair of the shape gas tube that returns install in on the temperature regulation box, and a pair of the shape gas tube that returns just faces on a plurality of fin, a pair of the pump is installed respectively on a pair of the shape gas tube that returns.
3. An industrial steam temperature and pressure reducing device according to claim 1, wherein the pressure regulating box and the temperature regulating box are provided.
4. The industrial steam temperature and pressure reducing device according to claim 1, wherein the inner sides of the two pairs of the L-shaped drainage pipes and the two pairs of the L-shaped exhaust pipes are respectively provided with a Tesla valve block.
5. The industrial steam temperature and pressure reducing device according to claim 1, wherein the pressure adjusting box is provided with a stirring bracket.
6. The industrial steam temperature and pressure reducing device according to claim 5, wherein the stirring bracket is provided with a stirring and mixing fan.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202320508811.7U CN219607059U (en) | 2023-03-16 | 2023-03-16 | Industrial steam temperature and pressure reducing device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202320508811.7U CN219607059U (en) | 2023-03-16 | 2023-03-16 | Industrial steam temperature and pressure reducing device |
Publications (1)
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CN219607059U true CN219607059U (en) | 2023-08-29 |
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CN202320508811.7U Active CN219607059U (en) | 2023-03-16 | 2023-03-16 | Industrial steam temperature and pressure reducing device |
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CN (1) | CN219607059U (en) |
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2023
- 2023-03-16 CN CN202320508811.7U patent/CN219607059U/en active Active
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