CN207799453U - Ammonia tank tele-control system for multi-layer film structure glass - Google Patents
Ammonia tank tele-control system for multi-layer film structure glass Download PDFInfo
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- CN207799453U CN207799453U CN201820236668.XU CN201820236668U CN207799453U CN 207799453 U CN207799453 U CN 207799453U CN 201820236668 U CN201820236668 U CN 201820236668U CN 207799453 U CN207799453 U CN 207799453U
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- ammonia tank
- ammonia
- tank
- alarm
- temperature sensor
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Abstract
The utility model is related to multi-layer film structure glass preparation fields,More particularly to being a kind of ammonia tank tele-control system for multi-layer film structure glass,Including the first ammonia tank,Second ammonia tank,First host computer and the second host computer,The first temperature sensor and second temperature sensor are connected on the can body of first ammonia tank,The tank deck of first ammonia tank is provided with the first alarm and the second alarm,Third temperature sensor and the 4th temperature sensor are connected on the can body of second ammonia tank,The tank deck of second ammonia tank is provided with third alarm and the 4th alarm,First host computer and the second host computer are set in monitoring room,When solving the anti-leak detection of existing ammonia tank,Mostly it is that arrangement personnel make an inspection tour ammonia tank,Detect the reading of temperature sensor,The ammonia tank excessively high to temperature carries out emergency cut-off related valve,The problem of although processing can avoid the occurrence of ammonia leakage in this way,But it can not implementing monitoring,And there are problems that higher human cost.
Description
Technical field
The utility model is related to multi-layer film structure glass preparation fields, and in particular to be that one kind being used for multi-layer film structure glass
Ammonia tank tele-control system.
Background technology
Liquefied ammonia is a kind of colourless liquid, there is intense irritation smell.Ammonia is answered as a kind of important glass production raw material
With extensive, to transport and storing facility, gaseous ammonia is usually obtained into liquid ammonia by pressurizeing or cooling down.Ammonia is soluble easily in water,
It is dissolved in the alkaline solution that ammonium hydroxide is formed after water.
In routinely storing, liquefied ammonia is easily heated to be converted to gaseous state from liquid, gently then ammonia tank is caused to leak, heavy then cause
Ammonia tank explodes, therefore in order to ensure the safety of ammonia tank, and timing schedule personnel is needed to make an inspection tour ammonia tank on production line,
The reading of temperature sensor is detected, the ammonia tank excessively high to temperature carries out emergency cut-off related valve, although processing can in this way
The problem of avoiding the occurrence of ammonia leakage, but can not implementing monitoring, and there are higher human costs.
Therefore need one kind simple in structure, it is upper by the way that temperature information reading in ammonia tank to be transferred to from temperature sensor
Machine carries out processing in real time and display, and one kind that monitoring room personnel are handled when there is abnormal reading is used for multi-layer film structure glass
The ammonia tank tele-control system of glass.
Utility model content
Mostly it is that arrangement personnel make an inspection tour ammonia tank when the utility model is for the anti-leak detection of existing ammonia tank, detection
The reading of temperature sensor, the ammonia tank excessively high to temperature carry out emergency cut-off related valve, although processing can avoid in this way
There is the problem of ammonia leakage, but can not implementing monitoring, and there are problems that higher human cost, provide a kind of for more
The ammonia tank tele-control system of film structure glass.
The utility model solves above-mentioned technical problem, the technical solution adopted is that, it is used for the liquefied ammonia of multi-layer film structure glass
Tank tele-control system includes the first ammonia tank, the second ammonia tank, the first host computer and the second host computer;
The first temperature sensor and second temperature sensor, the tank of the first ammonia tank are connected on the can body of first ammonia tank
Top is provided with the first alarm and the second alarm, and for the first alarm close to one end of the first ammonia tank, the second alarm is close
The other end of first ammonia tank, the first temperature sensor respectively with the first alarm and the first upper mechatronics, second temperature
Sensor respectively with the second alarm and the first upper mechatronics;
Third temperature sensor and the 4th temperature sensor, the tank of the second ammonia tank are connected on the can body of second ammonia tank
Top is provided with third alarm and the 4th alarm, and for third alarm close to one end of the second ammonia tank, the 4th alarm is close
The other end of second ammonia tank, third temperature sensor respectively with third alarm and the second upper mechatronics, the 4th temperature
Sensor respectively with the 4th alarm and the second upper mechatronics;
First host computer and the second host computer are set in monitoring room.
The purpose designed in this way is, is passed by the first temperature sensor of setting, second temperature sensor, third temperature
The temperature reading of two ammonia tanks is acquired by sensor and the 4th temperature sensor, and is transmitted to positioned at monitoring indoor first
In host computer and the second host computer, monitoring indoor staff can be according to two host computer while handling other material objects
Reading carry out outgoing detection, it is no longer necessary to be periodically detected, reduce the probability artificially missed and human cost.
Meanwhile the alarm that the PLC program in host computer can be controlled positioned at two ammonia tank tops is alarmed, and is reminded
Nigh staff handles the exception of appearance.
Moreover temperature data acquisition is transmitted to host computer by four sensors, realizes data information uninterrupted sampling, temperature
Spend it is high or it is too low alarm, staff can judge according to the reading of two alarms in same ammonia tank,
Erroneous judgement probability is greatly reduced, is mostly that arrangement personnel make an inspection tour ammonia tank when solving the anti-leak detection of existing ammonia tank, detection
The reading of temperature sensor, the ammonia tank excessively high to temperature carry out emergency cut-off related valve, although processing can avoid in this way
There is the problem of ammonia leakage, but can not implementing monitoring, and there are problems that higher human cost.
Further, storage ammonia chamber and cooling chamber are provided in the first ammonia tank, cooling chamber is located at the periphery of storage ammonia chamber.
The purpose designed in this way is, since the boiling point of liquefied ammonia is relatively low, by being arranged in the storage ammonia chamber periphery of storage liquefied ammonia
The probability that ammonia tank is changed burst A leak of liquefied ammonia by external environment can be greatly reduced in cooling chamber, improve industrial production stabilization
Property.
Optionally, it is provided with the first coolant liquid delivery pipe below the first ammonia tank, second is provided with below the first ammonia tank
Coolant liquid delivery pipe, the first coolant liquid delivery pipe pass through the first connecting tube and the coolant liquid inlet for being set to the first liquefied ammonia pot sidewall
Connection, the second coolant liquid delivery pipe are connected to by the second connecting tube with the coolant liquid liquid outlet at the top of the first ammonia tank.
The purpose designed in this way is, by the way that the first coolant liquid delivery pipe and the second coolant liquid delivery pipe is arranged, makes entrance
Coolant liquid in cooling chamber forms cycle, facilitates the temperature of control cooling chamber, makes to dynamic equilibrium is presented, ensures the peace of ammonia tank
Entirely.
Optionally, storage ammonia chamber is fusiformis structure, and size of the storage ammonia chamber close to the first ammonia tank both ends is less than storage ammonia chamber and is located at
Size in the middle part of first ammonia tank.
Optionally, size of the cooling chamber close to the first ammonia tank both ends is located at the ruler in the middle part of the first ammonia tank more than cooling chamber
It is very little.
The purpose designed in this way is that liquefied ammonia is that input is stored from one end of ammonia tank, from addition when needing to be discharged
One end export, due to positioned at both ends liquefied ammonia and external environment contact area it is larger, it is higher compared to other regional temperatures, easily go out
Now gasification shows, the cooling chamber to be matched by the storage ammonia chamber and size that are arranged to fusiformis, it can be ensured that coolant liquid is in storage ammonia chamber
The cooling effect at both ends is optimal, and is allowed to form dynamic equilibrium.
Optionally, the first liquefied ammonia pot sidewall is connected with sunshading board, and sunshading board covers in the first temperature sensor and second respectively
Above temperature sensor, the threading hole passed through for transmission line is provided on sunshading board.
The purpose designed in this way is that setting sunshading board can prevent the reading of temperature sensor caused by Yanguan Pass direct irradiation
Number deviation, improves the rate of precision of reading, while threading hole is arranged to pass through in order to data line.
Further, the first ammonia tank and the second liquefied ammonia jar structure are identical.
The beneficial effects of the utility model include at least following one;
1, it is passed by the first temperature sensor of setting, second temperature sensor, third temperature sensor and the 4th temperature
The temperature reading of two ammonia tanks is acquired by sensor, and is transmitted to upper positioned at indoor first host computer of monitoring and second
In machine, outgoing inspection can be carried out while handling other material objects according to the reading of two host computers by monitoring indoor staff
It surveys, it is no longer necessary to periodically be detected, reduce the probability artificially missed and human cost.
2, the alarm that the PLC program in host computer can be controlled positioned at two ammonia tank tops is alarmed, and is reminded
Neighbouring staff handles the exception of appearance.
3, temperature data acquisition is transmitted to host computer by four sensors, realizes data information uninterrupted sampling, temperature
It is excessively high or it is too low alarm, staff can judge according to the reading of two alarms in same ammonia tank, greatly
It is mostly that arrangement personnel make an inspection tour ammonia tank when solving the anti-leak detection of existing ammonia tank that width, which reduces erroneous judgement probability, detection temperature
The reading of sensor is spent, the ammonia tank excessively high to temperature carries out emergency cut-off related valve, although processing can avoid out in this way
The problem of existing ammonia leakage, but can not implementing monitoring, and there are problems that higher human cost.
4, it since the boiling point of liquefied ammonia is relatively low, by the way that cooling chamber is arranged in the storage ammonia chamber periphery of storage liquefied ammonia, can substantially drop
Low ammonia tank is changed the probability of burst A leak of liquefied ammonia by external environment, improves industrial production stability.
5, by the way that the first coolant liquid delivery pipe and the second coolant liquid delivery pipe is arranged, make to enter the coolant liquid shape in cooling chamber
At cycle, facilitate the temperature of control cooling chamber, makes to dynamic equilibrium is presented, ensure the safety of ammonia tank.
6, liquefied ammonia is that input is stored from one end of ammonia tank, needs to export from other end when discharge, due to being located at
The liquefied ammonia at both ends and external environment contact area are larger, higher compared to other regional temperatures, gasification easily occur and show, by setting
It is set to the storage ammonia chamber of fusiformis and cooling chamber that size matches, it can be ensured that cooling effect of the coolant liquid at storage ammonia chamber both ends reaches
It is optimal, it is allowed to form dynamic equilibrium.
Description of the drawings
Fig. 1 is the ammonia tank tele-control system structural schematic diagram for multi-layer film structure glass;
Fig. 2 is the first ammonia tank structural schematic diagram;
Fig. 3 is sun-shading plate structure schematic diagram;
In figure label for:1 is the first ammonia tank, 2 be the second ammonia tank, 3 be the first alarm, 4 be the second alarm, 5
For third alarm, 6 be the 4th alarm, 7 be the first temperature sensor, 8 be second temperature sensor, 9 be third temperature pass
Sensor, 10 be the 4th temperature sensor, 11 be the second host computer, 12 be the first host computer, 13 be monitoring room, 14 be storage ammonia chamber,
15 it is cooling chamber, 16 be the second coolant liquid delivery pipe, 17 be the second connecting tube, 18 be the first connecting tube, 19 be sunshading board, 20 is
Threading hole, 21 are the first coolant liquid delivery pipe.
Specific implementation mode
It is clear in order to enable the purpose of this utility model, technical solution and advantage to be more clear, below in conjunction with attached drawing and
The present invention will be further described in detail for embodiment.It should be appreciated that specific embodiment described herein is only used to
It explains the utility model, is not used to limit the utility model protection content.
Embodiment 1
As depicted in figs. 1 and 2, be used for multi-layer film structure glass ammonia tank tele-control system include the first ammonia tank 1,
Second ammonia tank 2, the first host computer 12 and the second host computer 11;
The first temperature sensor 7 and second temperature sensor 8, the first ammonia tank 1 are connected on the can body of first ammonia tank 1
Tank deck be provided with the first alarm 3 and the second alarm 4, the first alarm 3 is close to one end of the first ammonia tank 1, the second report
The other end of the device 4 close to the first ammonia tank 1 is warned, the first temperature sensor 7 is electric with the first alarm 3 and the first host computer 12 respectively
Connection, second temperature sensor 8 are electrically connected with the second alarm 4 and the first host computer 12 respectively;
Third temperature sensor 9 and the 4th temperature sensor 10, the second ammonia tank are connected on the can body of second ammonia tank 2
2 tank deck is provided with third alarm 5 and the 4th alarm 6, and third alarm 5 is close to one end of the second ammonia tank 2, the 4th report
The other end of the device 6 close to the second ammonia tank 2 is warned, third temperature sensor 9 is electric with third alarm 5 and the second host computer 11 respectively
Connection, the 4th temperature sensor 10 are electrically connected with the 4th alarm 6 and the second host computer 11 respectively;
First host computer 12 and the second host computer 11 are set in monitoring room 13.
In use, the first temperature sensor of setting, second temperature sensor, third temperature sensor and the 4th temperature pass
The temperature reading of two ammonia tanks is acquired by sensor, and is transmitted to upper positioned at indoor first host computer of monitoring and second
In machine, outgoing inspection can be carried out while handling other material objects according to the reading of two host computers by monitoring indoor staff
It surveys, it is no longer necessary to periodically be detected, reduce the probability artificially missed and human cost.PLC program in host computer can be with
Control is alarmed positioned at the alarm on two ammonia tank tops, remind nigh staff to the exception of appearance at
Reason.Temperature data acquisition is transmitted to host computer by four sensors, realizes data information uninterrupted sampling, temperature it is excessively high or
Too low to alarm, staff can judge according to the reading of two alarms in same ammonia tank, and mistake is greatly reduced
Sentence probability, be mostly that arrangement personnel make an inspection tour ammonia tank when solving the anti-leak detection of existing ammonia tank, detects temperature sensor
Reading, the ammonia tank excessively high to temperature carries out emergency cut-off related valve, although ammonia can be avoided the occurrence of and let out by handling in this way
The problem of leakage, but can not implementing monitoring, and there are problems that higher human cost.
Embodiment 2
Based on embodiment 1, storage ammonia chamber 14 and cooling chamber 15 are provided in the first ammonia tank 1, cooling chamber 15 is located at storage ammonia chamber
14 periphery.
In use, cooling chamber is arranged in the storage ammonia chamber periphery of storage liquefied ammonia, ammonia tank can be greatly reduced by external environment
The probability of variation burst A leak of liquefied ammonia, improves industrial production stability.
Embodiment 3
Based on embodiment 2,1 lower section of the first ammonia tank is provided with the first coolant liquid delivery pipe 21, and 1 lower section of the first ammonia tank is set
It is equipped with the second coolant liquid delivery pipe 16, the first coolant liquid delivery pipe 21 is by the first connecting tube 18 and is set to 1 side of the first ammonia tank
The coolant liquid inlet of wall is connected to, and the second coolant liquid delivery pipe 16 is by the second connecting tube 17 and set on 1 top of the first ammonia tank
Coolant liquid liquid outlet connection.
In use, the first coolant liquid delivery pipe of setting and the second coolant liquid delivery pipe, make to enter the coolant liquid in cooling chamber
Cycle is formed, the temperature of control cooling chamber is facilitated, makes to dynamic equilibrium is presented, ensures the safety of ammonia tank.
Embodiment 4
Based on embodiment 3, storage ammonia chamber 14 is fusiformis structure, and size of the storage ammonia chamber 14 close to 1 both ends of the first ammonia tank is less than
Store up the size that ammonia chamber 14 is located at 1 middle part of the first ammonia tank.Size of the cooling chamber 15 close to 1 both ends of the first ammonia tank is more than cooling chamber
15 are located at the size at 1 middle part of the first ammonia tank.
Embodiment 5
Based on embodiment 4, as shown in figure 3,1 side wall of the first ammonia tank is connected with sunshading board 19, sunshading board 19 covers in respectively
Above first temperature sensor 7 and second temperature sensor 8, the threading hole 20 passed through for transmission line is provided on sunshading board.
In use, setting sunshading board can prevent the deviation of reading of temperature sensor caused by Yanguan Pass direct irradiation, improve
The rate of precision of reading, while threading hole is set can be passed through in order to data line.
Embodiment 6
Based on embodiment 5, the first ammonia tank 1 is identical with 2 structure of the second ammonia tank.
Claims (7)
1. the ammonia tank tele-control system for multi-layer film structure glass, it is characterised in that:Including the first ammonia tank(1),
Two ammonia tanks(2), the first host computer(12)With the second host computer(11);
First ammonia tank(1)Can body on be connected with the first temperature sensor(7)And second temperature sensor(8), first
Ammonia tank(1)Tank deck be provided with the first alarm(3)With the second alarm(4), the first alarm(3)Close to the first ammonia tank
(1)One end, the second alarm(4)Close to the first ammonia tank(1)The other end, first temperature sensor(7)Respectively with
First alarm(3)With the first host computer(12)Electrical connection, the second temperature sensor(8)Respectively with the second alarm(4)
With the first host computer(12)Electrical connection;
Second ammonia tank(2)Can body on be connected with third temperature sensor(9)With the 4th temperature sensor(10), second
Ammonia tank(2)Tank deck be provided with third alarm(5)With the 4th alarm(6), third alarm(5)Close to the second ammonia tank
(2)One end, the 4th alarm(6)Close to the second ammonia tank(2)The other end, the third temperature sensor(9)Respectively with
Third alarm(5)With the second host computer(11)Electrical connection, the 4th temperature sensor(10)Respectively with the 4th alarm(6)
With the second host computer(11)Electrical connection;
First host computer(12)With the second host computer(11)Set on monitoring room(13)It is interior.
2. the ammonia tank tele-control system according to claim 1 for multi-layer film structure glass, it is characterised in that:Institute
State the first ammonia tank(1)Inside it is provided with storage ammonia chamber(14)And cooling chamber(15), the cooling chamber(15)Positioned at storage ammonia chamber(14)'s
Periphery.
3. the ammonia tank tele-control system according to claim 2 for multi-layer film structure glass, it is characterised in that:Institute
State the first ammonia tank(1)Lower section is provided with the first coolant liquid delivery pipe(21), the first ammonia tank(1)Lower section is provided with the second cooling
Liquid delivery pipe(16), the first coolant liquid delivery pipe(21)Pass through the first connecting tube(18)With set on the first ammonia tank(1)Side wall
Coolant liquid inlet is connected to, the second coolant liquid delivery pipe(16)Pass through the second connecting tube(17)With set on the first ammonia tank
(1)The coolant liquid liquid outlet at top is connected to.
4. the ammonia tank tele-control system according to claim 3 for multi-layer film structure glass, it is characterised in that:Institute
State storage ammonia chamber(14)For fusiformis structure, ammonia chamber is stored up(14)Close to the first ammonia tank(1)The size at both ends is less than storage ammonia chamber(14)Position
In the first ammonia tank(1)The size at middle part.
5. the ammonia tank tele-control system according to claim 4 for multi-layer film structure glass, it is characterised in that:Institute
State cooling chamber(15)Close to the first ammonia tank(1)The size at both ends is more than cooling chamber(15)Positioned at the first ammonia tank(1)Middle part
Size.
6. the ammonia tank tele-control system according to claim 5 for multi-layer film structure glass, it is characterised in that:Institute
State the first ammonia tank(1)Side wall is connected with sunshading board(19), the sunshading board(19)The first temperature sensor is covered in respectively(7)With
Second temperature sensor(8)Top is provided with the threading hole passed through for transmission line on sunshading board(20).
7. the ammonia tank tele-control system according to claim 5 for multi-layer film structure glass, it is characterised in that:Institute
State the first ammonia tank(1)With the second ammonia tank(2)Structure is identical.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820236668.XU CN207799453U (en) | 2018-02-09 | 2018-02-09 | Ammonia tank tele-control system for multi-layer film structure glass |
Applications Claiming Priority (1)
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CN201820236668.XU CN207799453U (en) | 2018-02-09 | 2018-02-09 | Ammonia tank tele-control system for multi-layer film structure glass |
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Publication Number | Publication Date |
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CN207799453U true CN207799453U (en) | 2018-08-31 |
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ID=63276354
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CN201820236668.XU Active CN207799453U (en) | 2018-02-09 | 2018-02-09 | Ammonia tank tele-control system for multi-layer film structure glass |
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2018
- 2018-02-09 CN CN201820236668.XU patent/CN207799453U/en active Active
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