CN206810244U - Reactor Recovery of the hot water equipment - Google Patents
Reactor Recovery of the hot water equipment Download PDFInfo
- Publication number
- CN206810244U CN206810244U CN201720162094.1U CN201720162094U CN206810244U CN 206810244 U CN206810244 U CN 206810244U CN 201720162094 U CN201720162094 U CN 201720162094U CN 206810244 U CN206810244 U CN 206810244U
- Authority
- CN
- China
- Prior art keywords
- reactor
- interlayer
- siphunculus
- hot water
- attemperater
- 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.)
- Expired - Fee Related
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Abstract
The utility model discloses a kind of reactor Recovery of the hot water equipment, including reactor, interlayer, heating tube and attemperater, the outer wall of the reactor is provided with interlayer, and interlayer and reactor collectively form sealed chamber, the inside of the sealed chamber is provided with heating tube, and level is provided with mounting rod in heating tube, the heating tube is fixed on the outer wall of reactor by mounting rod, the lower center position of the interlayer is welded with outlet pipe, and the top of outlet pipe is extended in interlayer, the outlet pipe is provided with the second electric control valve, and the one end of outlet pipe away from interlayer bottom is connected with the water inlet of attemperater by flange, the attemperater is located at the side of reactor, and the delivery port of attemperater is threaded with water inlet pipe, first electric control valve is installed on the water inlet pipe.The utility model is economical and practical, and reactor Recovery of the hot water equipment can recycle to the hot water in reactor upper interlayer, greatly save water resource.
Description
Technical field
It the utility model is related to reactor technical field, more particularly to a kind of reactor Recovery of the hot water equipment.
Background technology
Concrete admixture is also known as concrete additive, and concrete admixture is the thing for improving concrete performance
Matter, concrete admixture are divided into four classes by major function:1st, the additive of concrete mix workability energy is improved, including it is various
Water reducer, air entraining agent and pumping admixture etc.;2nd, concrete coagulating time, the additive of hardening capacity are adjusted, including retarder, morning are by force
Agent and accelerator etc.;3rd, the additive of concrete durability, including air entraining agent, waterproofing agent and corrosion inhibitor etc. are improved;4th, improve mixed
The additive of solidifying other performances of soil, including air-entrainment, swelling agent, antifreezing agent, colouring agent, waterproofing agent and pumping admixture etc., concrete
Additive needs plurality of devices in process of production, and in existing production equipment, heating tube is installed in the interlayer of reactor, comes
Water in interlayer is heated, and then controls the bulk temperature of reactor, the water in existing reactor interlayer is in reactor knot
After Shu Zuoye, the water in reactor interlayer will empty, and cause the waste of water resource significantly.
Utility model content
The purpose of this utility model is and the reactor Recovery of the hot water proposed in order to solve shortcoming present in prior art
Equipment.
To achieve these goals, the utility model employs following technical scheme:
Reactor Recovery of the hot water equipment, including reactor, interlayer, heating tube and attemperater, the outer wall of the reactor
Interlayer is provided with, and interlayer and reactor collectively form sealed chamber, the inside of the sealed chamber is provided with heating tube, and heats
Horizontal on pipe to be provided with mounting rod, the heating tube is fixed on the outer wall of reactor by mounting rod, in the bottom of the interlayer
Centre position is welded with outlet pipe, and the top of outlet pipe is extended in interlayer, and the outlet pipe is provided with the second electric control valve, and
The one end of outlet pipe away from interlayer bottom is connected with the water inlet of attemperater by flange, and the attemperater is located at reactor
Side, and the delivery port of attemperater is threaded with water inlet pipe, the first electric control valve is provided with the water inlet pipe, and enter
The one end of water pipe away from attemperater is connected with the water inlet on interlayer by flange, and the upper horizontal of the reactor is provided with more
Siphunculus, and more siphunculus are hollow structure, the surroundings of more siphunculus equidistantly offer the first mounting hole, and the first mounting hole
Be threaded with the second appendix on inwall, second appendix is L-type structure, and the second appendix away from more siphunculus one
End extends to the inside of interlayer, and the top center positions of more siphunculus is further opened with the second mounting hole, and the second mounting hole
The first appendix is threaded with inwall, the described one end of first appendix away from more siphunculus is connected with blower fan.
Preferably, the lower section of the interlayer is provided with fixed support, and support bracket fastened top is welded on interlayer.
Preferably, the blower fan is located at the top of reactor, and blower fan is fixed on reactor by base plate, described
The control terminal of blower fan is connected with the output end of control device, and the also control with the first electric control valve respectively of the output end of control device
End processed is connected with the control terminal of the second electric control valve, and the control device is PLC, and the model of control device
S7-200。
Preferably, the input of the control device is connected with the output end of level sensor, and the type of level sensor
Number it is JZ-GSW10, the level sensor is fixed on the top of the side wall of sealed chamber.
Preferably, vertical axis of four the second appendixs along more siphunculus respectively positioned at more siphunculus surroundings is symmetrically set
Put.
Preferably, the lower center position of the interlayer is lower than the surrounding position of interlayer bottom.
Preferably, the height and position of the water inlet on the interlayer is lower than the height and position of the bottom of the second appendix.
In the utility model, pass through blower fan, the first appendix, more siphunculus, second in the reactor Recovery of the hot water equipment
Appendix, water inlet pipe and interlayer are engaged with the sealed chamber that reactor collectively forms, and when reactor starts work, are beaten first
The first electric control valve is opened, then controls blower fan to be inverted, now the second electric control valve is closed, and blower fan passes sequentially through
Two appendixs, more siphunculus, the first appendix can be extracted the gas inside sealed chamber so that shape inside sealed chamber
Into negative pressure, now the water inside attemperater can be passed through in sealed chamber by water inlet pipe, the water inside sealed chamber
Position reaches the setting value of level sensor, and level sensor controls blower fan and the first electric control valve to be closed by control device
Close, the annular seal space collectively formed by blower fan, the first appendix, more siphunculus, the second appendix, outlet pipe and interlayer and reactor
Room is engaged, and after reactor end-of-job, is first turned on the second electric control valve, and now the first electric control valve, which is in, closes shape
State, then control blower fan to be rotated forward, blower fan by the gas in the external world pass sequentially through the first appendix, more siphunculus, the second appendix and
In sealed chamber so that the air pressure inside sealed chamber increases, and the water inside sealed chamber is passed through attemperater by outlet pipe,
Recycling for water resource is realized, greatlys save water resource, the utility model is economical and practical, reactor Recovery of the hot water equipment
Hot water in reactor upper interlayer can be recycled, greatly save water resource.
Brief description of the drawings
Fig. 1 be the utility model proposes reactor Recovery of the hot water equipment structural representation;
Fig. 2 be the utility model proposes reactor Recovery of the hot water equipment side view.
In figure:1 reactor, 2 interlayers, 3 heating tubes, 4 mounting rods, 5 fixed supports, 6 second appendixs, siphunculus more than 7,8 wind
Machine, 9 first electric control valves, 10 water inlet pipes, 11 attemperaters, 12 second electric control valves, 13 outlet pipes.
Embodiment
Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out
Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole
Embodiment.
Reference picture 1-2, reactor Recovery of the hot water equipment, including reactor 1, interlayer 2, heating tube 3 and attemperater 11, instead
The outer wall of kettle 1 is answered to be provided with interlayer 2, and interlayer 2 and reactor 1 collectively form sealed chamber, the inside of sealed chamber, which is provided with, to be added
Heat pipe 3, and level is provided with mounting rod 4 in heating tube 3, heating tube 3 is fixed on by mounting rod 4 on the outer wall of reactor 1, folder
The lower center position of layer 2 is welded with outlet pipe 13, and the top of outlet pipe 13 is extended in interlayer 2, and outlet pipe 13 is provided with
Second electric control valve 12, and the one end of outlet pipe 13 away from the bottom of interlayer 2 is connected with the water inlet of attemperater 11 by flange
Mouthful, attemperater 11 is located at the side of reactor 1, and the delivery port of attemperater 11 is threaded with water inlet pipe 10, water inlet pipe
First electric control valve 9 is installed, and the water inlet on water inlet pipe 10 one end and interlayer 2 away from attemperater 11 passes through method on 10
Orchid connection, the upper horizontal of reactor 1 is provided with more siphunculus 7, and more siphunculus 7 are hollow structure, and the surrounding of more siphunculus 7 is equidistantly opened
The second appendix 6 is threaded with provided with the first mounting hole, and on the inwall of the first mounting hole, the second appendix 6 is L-type knot
Structure, and the one end of the second appendix 6 away from more siphunculus 7 extends to the inside of interlayer 2, the top center position of more siphunculus 7 is also opened
Provided with the second mounting hole, and the first appendix is threaded with the inwall of the second mounting hole, the first appendix is away from more siphunculus
7 one end is connected with blower fan 8, and the lower section of interlayer 2 is provided with fixed support 5, and the top of fixed support 5 is welded on interlayer 2,
Blower fan 8 is located at the top of reactor 1, and blower fan 8 is fixed on reactor 1 by base plate, and the control terminal of blower fan 8 is connected with
The output end of control device, and the output end of the control device also control terminal and the second electrically-controlled valve with the first electric control valve 9 respectively
The control terminal of door 12 is connected, and control device is PLC, and the model S7-200 of control device, control device it is defeated
Enter the output end that end is connected with level sensor, and the model JZ-GSW10 of level sensor, level sensor is fixed on close
The top of the side wall of chamber is sealed, respectively positioned at vertical axis of four the second appendixs 6 along more siphunculus 7 of more surroundings of siphunculus 7
It is symmetrical arranged, the lower center position of interlayer 2 is lower than the surrounding position of the bottom of interlayer 2, the height and position of the water inlet on interlayer 2
Height and position than the bottom of the second appendix 6 is low.
In the utility model, when reactor 1 starts work, the first electric control valve 9 is first turned on so that water inlet pipe 10
Turned on, then control blower fan 8 to be inverted by control device, now the second electric control valve 12 is closed, blower fan 8
Gas inside the sealed chamber of extraction is passed sequentially through into the second appendix 6, more siphunculus 7, the first appendix, is then discharged to again outer
Boundary so that sealed chamber is internally formed negative pressure, and the water inside attemperater 11 is passed through in sealed chamber by water inlet pipe 10, until
Water level inside sealed chamber reaches the setting value of level sensor, and level sensor controls the He of blower fan 8 by control device
First electric control valve 9 is closed, and then heating tube 3 heats to the water inside sealed chamber, and then controls reactor 1
Bulk temperature, after 1 end-of-job of reactor, be first turned on the second electric control valve 12, now the first electric control valve 9 be in close
Closed state, then control blower fan 9 to be rotated forward, the gas in the external world is passed through the first appendix, more siphunculus 7, second by blower fan 9 successively
Appendix 6 and sealed chamber so that the air pressure inside sealed chamber increases, and the water inside sealed chamber is logical by outlet pipe 13
Enter attemperater 11, realize recycling for water resource, greatly save water resource.
It is described above, the only preferable embodiment of the utility model, but the scope of protection of the utility model is not
This is confined to, any one skilled in the art is in the technical scope that the utility model discloses, according to this practicality
New technical scheme and its utility model design are subject to equivalent substitution or change, should all cover in protection model of the present utility model
Within enclosing.
Claims (7)
1. reactor Recovery of the hot water equipment, including reactor (1), interlayer (2), heating tube (3) and attemperater (11), its feature
It is, the outer wall of the reactor (1) is provided with interlayer (2), and interlayer (2) and reactor (1) collectively form sealed chamber, institute
The inside for stating sealed chamber is provided with heating tube (3), and level is provided with mounting rod (4) in heating tube (3), and the heating tube (3) is logical
Mounting rod (4) to be crossed to be fixed on the outer wall of reactor (1), the lower center position of the interlayer (2) is welded with outlet pipe (13),
And the top of outlet pipe (13) is extended in interlayer (2), the outlet pipe (13) is provided with the second electric control valve (12), and water outlet
The one end of pipe (13) away from interlayer (2) bottom is connected with the water inlet of attemperater (11), the attemperater by flange
(11) it is located at the side of reactor (1), and the delivery port of attemperater (11) is threaded with water inlet pipe (10), the water inlet pipe
(10) the first electric control valve (9), and entering on water inlet pipe (10) one end and interlayer (2) away from attemperater (11) are installed on
The mouth of a river is connected by flange, and the upper horizontal of the reactor (1) is provided with more siphunculus (7), and more siphunculus (7) are hollow structure,
The surrounding of more siphunculus (7) equidistantly offers the first mounting hole, and is threaded with second on the inwall of the first mounting hole
Appendix (6), second appendix (6) is L-type structure, and the one end of the second appendix (6) away from more siphunculus (7) extends to
The inside of interlayer (2), the top center position of more siphunculus (7) is further opened with the second mounting hole, and the second mounting hole is interior
The first appendix is threaded with wall, the one end of first appendix away from more siphunculus (7) is connected with blower fan (8).
2. reactor Recovery of the hot water equipment according to claim 1, it is characterised in that the lower section of the interlayer (2) is provided with
Fixed support (5), and be welded at the top of fixed support (5) on interlayer (2).
3. reactor Recovery of the hot water equipment according to claim 1, it is characterised in that the blower fan (8) is located at reactor
(1) top, and blower fan (8) is fixed on reactor (1) by base plate, the control terminal of the blower fan (8) is connected with control
The output end of device processed, and the output end of the control device also control terminal and the second electrically-controlled valve with the first electric control valve (9) respectively
The control terminal of door (12) is connected, and the control device is PLC, and the model S7-200 of control device.
4. reactor Recovery of the hot water equipment according to claim 3, it is characterised in that the input of the control device connects
The output end of level sensor is connected to, and the model JZ-GSW10 of level sensor, the level sensor are fixed on sealing
The top of the side wall of chamber.
5. reactor Recovery of the hot water equipment according to claim 1, it is characterised in that respectively positioned at more siphunculus (7) surrounding
Vertical axis of four the second appendixs (6) along more siphunculus (7) be symmetrical arranged.
6. reactor Recovery of the hot water equipment according to claim 1, it is characterised in that the bottom center of the interlayer (2)
Position is lower than the surrounding position of interlayer (2) bottom.
7. reactor Recovery of the hot water equipment according to claim 1, it is characterised in that the water inlet on the interlayer (2)
Height and position it is lower than the height and position of the bottom of the second appendix (6).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720162094.1U CN206810244U (en) | 2017-02-22 | 2017-02-22 | Reactor Recovery of the hot water equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720162094.1U CN206810244U (en) | 2017-02-22 | 2017-02-22 | Reactor Recovery of the hot water equipment |
Publications (1)
Publication Number | Publication Date |
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CN206810244U true CN206810244U (en) | 2017-12-29 |
Family
ID=60750910
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201720162094.1U Expired - Fee Related CN206810244U (en) | 2017-02-22 | 2017-02-22 | Reactor Recovery of the hot water equipment |
Country Status (1)
Country | Link |
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CN (1) | CN206810244U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108908719A (en) * | 2018-07-10 | 2018-11-30 | 四川双利新材料有限公司 | Based on electric cabinet automatic control type cement mixing equipment |
-
2017
- 2017-02-22 CN CN201720162094.1U patent/CN206810244U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108908719A (en) * | 2018-07-10 | 2018-11-30 | 四川双利新材料有限公司 | Based on electric cabinet automatic control type cement mixing equipment |
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Legal Events
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20171229 Termination date: 20210222 |
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CF01 | Termination of patent right due to non-payment of annual fee |