CN206519024U - Multipoint temperature-control energy-saving dryer - Google Patents
Multipoint temperature-control energy-saving dryer Download PDFInfo
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- CN206519024U CN206519024U CN201720202105.4U CN201720202105U CN206519024U CN 206519024 U CN206519024 U CN 206519024U CN 201720202105 U CN201720202105 U CN 201720202105U CN 206519024 U CN206519024 U CN 206519024U
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Abstract
The utility model discloses a kind of Multipoint temperature-control energy-saving dryer, including the control module being combined provided with base, the adsorption module being arranged on the base and with the adsorption module, wherein:The adsorption module is provided with two spaced first adsorption towers and the second adsorption tower, and each adsorption tower is provided with a plurality of spaced temperature sensors in inside, to measure the temperature value at each position in the adsorption tower;Extrapolate by each section of heating-up temperature, and judge absorption/desorption ability of drier, and then adjust heating-up temperature, operating efficiency can not only be improved and the consuming of many waste heat energies is avoided that, same, in cooling procedure also can reduce cooling needed for time and energy there is provided a kind of Multipoint temperature-control energy-saving dryer.
Description
Technical field
The utility model is related to drying machine field, more particularly to a kind of Multipoint temperature-control energy-saving dryer.
Background technology
Mainly the moisture content in compressed air is adsorbed with adsorbent by existing drying machine, and reaches dry purpose,
However, existing drying machine is in use, actual temperature value due to can not accurately obtain each position of drying tower, and then can not be through each
The difference of spot temperature value, and adjusting existing drying machine should continue or stop at the time point of heating, not simply failing to for each position
Temperature controlled, and can not effectively carry out the use and saving of the energy, relative increase uses required cost, and unnecessary
The energy of consuming can also be impacted for environment, in view of this, and existing drying machine has it to be subject to improvements.
Utility model content
Technical problem to be solved in the utility model is to provide a kind of Multipoint temperature-control energy-saving dryer.
To solve the above problems, the utility model is adopted the following technical scheme that:
Multipoint temperature-control energy-saving dryer, including provided with base, the adsorption module being arranged on the base and with the absorption
The control module that module is combined, wherein:The adsorption module is provided with two spaced first adsorption towers and the second adsorption tower, respectively
Adsorption tower is provided with a plurality of spaced temperature sensors in inside, to measure the temperature value at each position in the adsorption tower;With
And the control module is provided with control cabinet, upper control valve group and lower control valve group, the control cabinet is located between two adsorption towers, to receive
The temperature value that each temperature sensor is measured, and the temperature and time that each adsorption tower of control is operated, control valve group is set on this
It is placed in the top of the adsorption module and is connected with two adsorption tower, control valve group is provided with upper connecting line, air inlet, answered on this
Several pneumatic operated valves and two energy-conservation temperature detectors, connecting line at the top of two adsorption tower with being connected on this, on the air inlet and this
Connecting line is communicated, and a plurality of pneumatic operated valves are arranged on this on connecting line and are connected with the air inlet, two energy-conservation
Temperature detector is arranged at the two ends of connecting line on this and is respectively adjacent to first adsorption tower and the top of second adsorption tower, under this
Control valve group is arranged at the bottom of the adsorption module and is connected with two adsorption tower, and the lower control valve group is provided with lower connecting tube
Road, gas outlet and a plurality of non-return valves, the wherein lower connecting line are connected with two adsorption tower, the gas outlet and the lower connection
Pipeline is communicated and positioned at the middle section of the lower connecting line, a plurality of non-return valves are on the lower connecting line.
Further, each adsorption tower is provided with 3 temperature sensors, aforementioned temperature sensor be respectively arranged on the adsorption tower it is upper,
In and lower portion, and then the temperature value of the adsorption tower opposite site can be obtained.
Further, the base is provided with several support arms in top surface, and each support arm system is in upright and is arranged at intervals, and the suction
First adsorption tower of attached module system and the second adsorption tower system are combined with the support arm of the base and are arranged at intervals on the base.
It is preferred that the air inlet is located at the middle section of connecting line on this, and the two energy-conservations temperature detector is located at the air inlet
Both sides, the gas outlet be located at the lower connecting line middle section, and a plurality of non-return valves be located at the gas outlet two
Side.
This new Multipoint temperature-control energy-saving dryer is in use, temperature-sensitives can not only be saved through two of control valve group on this
Device, obtains temperature value, and then is controlled for the heat time, the heat time can not only be allowed to terminate in advance, reaches saving heating
The effect of power consumption, and because the direction for cooling down and heating is same direction, so for not being desorbed complete drier, can utilize
The used heat taken out of in cooling process carries out last desorption, can also reach the effect of energy-conservation;And it is further transmitted through in each
Inside adsorption tower it is upper, in and inferior location interval set temperature sensor mode, can further grasp compressed gas entrance
During two adsorption towers, actual temperature value when each position is flowed, and then the temperature value measured can be noted down and converted, with
Heating-up temperature in learning compressed gas in two adsorption towers during each position.
Wherein, positioned at the sensor of each adsorption tower lower portion, in heating process can as heater and adsorption tower it
Between the temperature difference judge, and dried in switching in use, can be to ensure that drier (can be that the material such as activated aluminum or silica gel is made
Into) optimal working condition whether is in, and positioned at the sensor at each adsorption tower stage casing position, can the conduct during heating
Switch to the judgement of second segment energy efficiency temperature, and when carrying out cooling procedure can as the judgement for cooling down remaining time, further,
The sensor at position above each adsorption tower, can during heating as the judgement for switching to the 3rd section of energy efficiency temperature,
And can not only note down temperature of waste heat when carrying out cooling procedure to improve energy-saving efficiency, and can ensure that desiccant cooling is completed.
The beneficial effects of the utility model are:The drying machine it is foregoing it is each energy-conservation temperature detector measure compressed air into and out of
The temperature value of two adsorption towers, and each temperature sensor measure inside each adsorption tower it is upper, in and inferior position temperature
Value, is extrapolated by each section of heating-up temperature, and judges absorption/desorption ability of drier, and then adjusts heating-up temperature, not only
Operating efficiency can be improved and the consuming of many waste heat energies is avoided that, likewise, can also be reduced when needed for cooling in cooling procedure
Between and energy, and then accurate control temperature is provided, the operating time is saved and reduces the energy-saving dryer of energy consumption.
Brief description of the drawings
Fig. 1 is a kind of structural representation of Multipoint temperature-control energy-saving dryer of the utility model.
Fig. 2 is a kind of partial enlargement side view schematic diagram of Multipoint temperature-control energy-saving dryer of the utility model.
Fig. 3 is operation chart when a kind of Multipoint temperature-control energy-saving dryer of the utility model is operated.
Embodiment
Refering to shown in Fig. 1~2, Multipoint temperature-control energy-saving dryer, including provided with base 10, adsorption module 20 and control module
30, wherein:The base 10 is in upright and interval setting, the absorption mould in being provided with several support arms 11, each support arm 11 above
Block 20 is to be combined and be arranged at intervals on the base 10 with the support arm 11 of the base 10, further, the adsorption module 20 in
The base 10 is provided with two spaced adsorption towers 21,22, and two adsorption tower 21,22 is respectively the first adsorption tower 21 and second
Adsorption tower 22, each adsorption tower 21,22 for hollow cylinder and is provided with a plurality of temperature sensors 23, a plurality of temperature in inside
It is the inside for being arranged at intervals at the adsorption tower 21,22 to spend sensor 23, to measure the temperature at each position in the adsorption tower 21,22
Value, it is preferable that each adsorption tower 21,22 is respectively arranged on the adsorption tower provided with 3 temperature sensors 23, aforementioned temperature sensor 23
21st, 22 it is upper, in and lower portion, and then the adsorption tower 21, the temperature value of 22 opposite sites can be obtained.
The control module 30 is combined with the adsorption module 20 and provided with control cabinet 31, upper control valve group 32 and lower control valve
Group 33, the wherein control cabinet 31 are located between two adsorption tower 21,22, with receive each temperature sensor 23 the temperature that arrives of measurement
Value, and speed and the time of each operating of adsorption tower 21,22 are controlled, the control cabinet 31 is provided with power interface, display screen, setting
Touching and control board(It is not shown), it is that the control cabinet 31 provides power supply to connect dispatch from foreign news agency or main control box by power interface,
Display screen intuitively shows each parameter, the change of temperature value, by setting touching to be configured to parameter, and control board is led to
Signal socket and temperature sensor 23, pneumatic operated valve 323 and the energy-conservation connection of temperature detector 324 are crossed, signal socket reserved location can
Connect main control box or external equipment.
On this control valve group 32 be arranged at two adsorption tower 21,22 top and with a plurality of adsorption towers 21,22 phases
Connection, control valve group 32 is provided with connecting line 321, air inlet 322, the energy-conservation temperature detector of a plurality of pneumatic operated valves 323 and two on this
324, the connecting line 321 is connected with the top of two adsorption tower 21,22, and the air inlet 322 is communicated with the connecting line 321
And positioned at the middle section of the connecting line 321, a plurality of pneumatic operated valves 323 are arranged on the connecting line 321 and entered with this
Gas port 322 is connected, and the two energy-conservations temperature detector 324 is arranged at the two ends of the connecting line 321 and is respectively adjacent to first absorption
The top of tower 21 and second adsorption tower 22 so that the two energy-conservations temperature detector 324 is located at the both sides of the air inlet 322.
The lower control valve group 33 is arranged at the bottom of two adsorption tower 21,22 and is connected with two adsorption tower 21,22, should
Lower control valve group 33 is provided with lower connecting line 331, gas outlet 332 and a plurality of non-return valves 333, the wherein lower connecting line 331
It is connected with two adsorption tower 21,22, the gas outlet 332 is communicated with the lower connecting line 331 and positioned at the lower connecting line 331
Middle section, a plurality of non-return valves 333 are on the lower connecting line 331 and positioned at the both sides of the gas outlet 332.
Coordinate referring to as shown in Figures 1 to 3, this new Multipoint temperature-control energy-saving dryer through on this in use, can not only control
Two energy-conservation temperature detectors 324 of valve group 32 processed, obtain compressed air into and out of temperature value during two adsorption tower 21,22, and then for adding
The hot time is controlled, and the heat time can not only be allowed to terminate in advance, reaches the effect for saving heating power consumption, and because cooling down and heating
Direction be same direction, so for not being desorbed complete drier, can using the used heat taken out of in cooling process come
Last desorption is carried out, the effect of energy-conservation can be also reached;And be further transmitted through inside each adsorption tower 21,22 it is upper, in and
Inferior location interval sets the mode of temperature sensor 23, when can further grasp compressed gas into two adsorption tower 21,22, in
Actual temperature value during each position flowing, and then the temperature value measured can be noted down and converted, to learn compressed gas
Firing rate in two adsorption towers 21,22 during each position.
, can conduct in heating process wherein as shown in Fig. 2 positioned at each adsorption tower 21, the sensor 23 of 22 lower portions
The temperature difference between heater and adsorption tower 21,22 judges, and is dried in switching in use, can be to ensure that drier (can be work
Property the material such as aluminium or silica gel made by) whether be in optimal working condition, and positioned at each adsorption tower 21, the biography at 22 stage casing positions
Sensor 23, can as the judgement for switching to second segment energy efficiency temperature, (wherein second segment heating-up temperature be less than during heating
First paragraph heating-up temperature and can switch to 180 DEG C), and can enter when carrying out cooling procedure as the judgement for cooling down remaining time
One step, the sensor 23 positioned at each adsorption tower 21,22 top positions can be used as during heating and switch to the 3rd section of energy-conservation
The judgement (wherein the 3rd section heating-up temperature is less than second segment heating-up temperature and can switch to 140 DEG C) of temperature, and cooled down
Temperature of waste heat can not only be noted down during process and has improved energy-saving efficiency, and can ensure that desiccant cooling is completed.
Compressed air is measured by foregoing each energy-conservation temperature detector to pass into and out of the temperature value of two adsorption towers, and each temperature
Sensor measure inside each adsorption tower it is upper, in and inferior position temperature value, extrapolate by each section of heating-up temperature, and
Judge absorption/desorption ability of drier, and then adjust heating-up temperature, operating efficiency can not only be improved and many waste heat energies are avoided that
Consuming, likewise, can also reduce the time needed for cooling and energy in cooling procedure, and then provide accurate control temperature
Degree, the energy-saving dryer for saving operating time and reduction energy consumption.
It is described above, embodiment only of the present utility model, but protection domain of the present utility model do not limit to
In this, any change or replacement expected without creative work should all be covered and are defined in the utility model protection domain.
Claims (5)
1. Multipoint temperature-control energy-saving dryer, it is characterised in that:Including provided with base, the adsorption module being arranged on the base and
The control module being combined with the adsorption module, wherein:The adsorption module is provided with two spaced first adsorption towers and second
Adsorption tower, each adsorption tower is provided with a plurality of spaced temperature sensors in inside, to measure each position in the adsorption tower
Temperature value;And the control module be provided with control cabinet, upper control valve group and lower control valve group, the control cabinet located at two adsorption towers it
Between, to receive the temperature value that each temperature sensor is measured, and the temperature and time that each adsorption tower of control is operated, control on this
Valve group processed is arranged at the top of the adsorption module and is connected with two adsorption tower, on this control valve group provided with upper connecting line,
Air inlet, a plurality of pneumatic operated valves and two energy-conservation temperature detectors, connecting line at the top of two adsorption tower with being connected on this, the air inlet
Mouth is communicated with connecting line on this, and a plurality of pneumatic operated valves are arranged on this on connecting line and are connected with the air inlet,
The two energy-conservations temperature detector is arranged at the two ends of connecting line on this and is respectively adjacent to first adsorption tower and second adsorption tower
Top, the lower control valve group is arranged at the bottom of the adsorption module and is connected with two adsorption tower, and the lower control valve group is provided with
Lower connecting line, gas outlet and a plurality of non-return valves, the wherein lower connecting line are connected with two adsorption tower, the gas outlet with
The lower connecting line is communicated and positioned at the middle section of the lower connecting line, and a plurality of non-return valves are located at the lower connecting line
On.
2. Multipoint temperature-control energy-saving dryer according to claim 1, it is characterised in that:Each adsorption tower is provided with 3 temperature
Spend sensor, be respectively arranged on the adsorption tower it is upper, in and lower portion, and then the temperature value of the adsorption tower opposite site can be obtained.
3. Multipoint temperature-control energy-saving dryer according to claim 1 or 2, it is characterised in that:The submounts are provided with number
Individual support arm, each support arm system is in upright and is arranged at intervals, and the first adsorption tower of the adsorption module system and the second adsorption tower system
It is combined and is arranged at intervals on the base with the support arm of the base.
4. Multipoint temperature-control energy-saving dryer according to claim 3, it is characterised in that:The described air inlet, which is located on this, to be connected
The middle section of pipeline, and the two energy-conservations temperature detector is located at the both sides of the air inlet, the gas outlet is located in the lower connecting line
At section, and a plurality of non-return valves are located at the both sides of the gas outlet.
5. Multipoint temperature-control energy-saving dryer according to claim 1, it is characterised in that:The described air inlet, which is located on this, to be connected
The middle section of pipeline, and the two energy-conservations temperature detector is located at the both sides of the air inlet, the gas outlet is located in the lower connecting line
At section, and a plurality of non-return valves are located at the both sides of the gas outlet.
Priority Applications (1)
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CN201720202105.4U CN206519024U (en) | 2017-03-03 | 2017-03-03 | Multipoint temperature-control energy-saving dryer |
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CN201720202105.4U CN206519024U (en) | 2017-03-03 | 2017-03-03 | Multipoint temperature-control energy-saving dryer |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2023242717A1 (en) * | 2022-06-14 | 2023-12-21 | Universidad De Guadalajara | Pressure swing adsorption device, system and method for purifying a compound of interest |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2023242717A1 (en) * | 2022-06-14 | 2023-12-21 | Universidad De Guadalajara | Pressure swing adsorption device, system and method for purifying a compound of interest |
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