CN209317394U - A kind of high-efficiency adsorption dryer - Google Patents
A kind of high-efficiency adsorption dryer Download PDFInfo
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- CN209317394U CN209317394U CN201821596223.9U CN201821596223U CN209317394U CN 209317394 U CN209317394 U CN 209317394U CN 201821596223 U CN201821596223 U CN 201821596223U CN 209317394 U CN209317394 U CN 209317394U
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- air
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Abstract
The utility model provides a kind of high-efficiency adsorption dryer, comprising: left adsorption tower and right adsorption tower;The both ends of lower pipeline, lower pipeline are connected to left adsorption tower with the lower end of right adsorption tower respectively;Two intake valves being located on lower pipeline;Air inlet pipe, one end of air inlet pipe are connected to lower pipeline and are located between two intake valves;The absorption of air can be completed by the mating connection of lower regenerating tube, two intake valves, two lower regeneration valves, regeneration escape pipe and lower pipeline, air inlet pipe;The upper pipeline that both ends are connected to left adsorption tower with the upper end of right adsorption tower respectively;Two air outlet valves being located on pipeline, by can be realized regenerative process between escape pipe, upper regenerating tube, two upper regeneration valves, regeneration air inlet pipe, air blower and heater and with the connection cooperation of upper pipeline;The air that deduster is used to suck air blower is dusted.The drying machine is dry and regeneration efficiency is high, and effect is good, and micronic dust can be prevented in air to enter in regenerative process adsorption tower.
Description
Technical field
The utility model relates to dried-air drier technical field, in particular to a kind of high-efficiency adsorption dryer.
Background technique
The air of clean dried is gas source important in industrial production, and the clean level or degree of drying of air are raw to industry
Producing has great influence, for example, production technology or product quality may be influenced.Although existing dried-air drier can satisfy often
The dry of the air or gas seen requires, but existing drying machine drying efficiency is low, and the regeneration effect of desiccant is bad, regeneration speed
Degree is slow, and energy consumption is high, cannot be dried simultaneously and the regeneration of adsorbent, makes troubles to production, in adsorbent reactivation process
In, due to that can be attached to after having dust particale, dust particale that air is followed to enter in adsorption tower in the air in entrance adsorption tower
The surface of adsorbent is polluted on the surface of adsorbent, and adsorbent is not easy to replace and be cleaned in adsorption tower, it is easier that adsorbent
Dry and regeneration effect reduces, and influences to produce.
Utility model content
In view of this, the present invention provides a kind of high-efficiency adsorption dryers.
In order to solve the above technical problems, the utility model uses following technical scheme:
According to the high-efficiency adsorption dryer of the utility model embodiment, comprising:
Left adsorption tower and right adsorption tower;
Lower pipeline, the both ends of the lower pipeline are connected to the left adsorption tower with the lower end of the right adsorption tower respectively;
Two intake valves, two intake valves are respectively provided on the lower pipeline;
Air inlet pipe, one end of the air inlet pipe is connected to the lower pipeline and is located between two intake valves, described
The other end of air inlet pipe with compressor for being connected;
Lower regenerating tube, the both ends of the lower regenerating tube are connected to the lower pipeline respectively, and two intake valves are located at institute
State the position between the both ends of lower regenerating tube;
Two lower regeneration valves, two lower regeneration valves are respectively provided on the lower regenerating tube;
Escape pipe is regenerated, one end of the regeneration escape pipe is connected to the lower regenerating tube and is located at two lower regeneration
Position between valve;
Upper pipeline, the both ends of the upper pipeline are connected to the left adsorption tower with the upper end of the right adsorption tower respectively;
Two air outlet valves, two air outlet valves are respectively provided on the upper pipeline;
Escape pipe, one end of the escape pipe are connected to the upper pipeline and are located between two air outlet valves;
Upper regenerating tube, the both ends of the upper regenerating tube are connected to the upper pipeline respectively, and two air outlet valves are located at institute
State the position between the both ends of regenerating tube;
Two upper regeneration valves, two upper regeneration valves are respectively provided on the upper regenerating tube;
Air inlet pipe is regenerated, one end of the regeneration air inlet pipe is connected to the upper regenerating tube and is located at two upper regeneration
Position between valve;
Air blower and heater, the air blower are located at the other end of the regeneration air inlet pipe, and the heater is located at institute
The middle part of regeneration air inlet pipe is stated, the heater is used to heat the air of the air blower sucking;
Deduster, the deduster are located in the regeneration air inlet pipe and between the air blower and the heater
Position, the deduster is used for the air that sucks to the air blower and is dusted.
Further, the high-efficiency adsorption dryer further include:
Flow sensor, the flow sensor is located in the regeneration air inlet pipe and is located at the air blower to be added with described
Position between hot device, the flow sensor are used to measure the flow of the air of the air blower sucking and generate corresponding stream
Signal is measured, the flow sensor can send the flow signal;
Alarm, the alarm can receive the flow signal, and the alarm receives the flow signal
Alarm or stop alarm afterwards.
Further, the high-efficiency adsorption dryer further include:
Controller, the controller can receive the flow signal, and the controller receives the flow signal
After control the heater and open or close.
Further, the high-efficiency adsorption dryer further include:
Compressor, the air outlet of the compressor are connected to the other end of the air inlet pipe.
Further, the high-efficiency adsorption dryer further include:
Pressure sensor, the pressure sensor are located at the other end of the escape pipe, and the pressure sensor is for examining
It surveys the pressure of the air of the other end of the escape pipe and generates corresponding pressure signal, the pressure sensor can send institute
State pressure signal;
The controller can receive the pressure signal, and the controller controls institute after receiving the pressure signal
Compressor is stated to open or close.
Further, the high-efficiency adsorption dryer further include:
Humidity sensor, the humidity sensor are located at the other end of the escape pipe, and the humidity sensor is for examining
It surveys the humidity of the air of the other end of the escape pipe and generates corresponding moisture signal, the humidity sensor can send institute
State moisture signal;
The controller can receive the moisture signal, and the controller controls institute after receiving the moisture signal
Compressor is stated to open or close.
Further, the high-efficiency adsorption dryer further include:
Temperature sensor, the temperature sensor are located at the other end of the escape pipe, and the temperature sensor is for examining
It surveys the temperature of the air of the other end of the escape pipe and generates corresponding temperature signal, the temperature sensor can send institute
State temperature signal;
The controller can receive the temperature signal, and the controller controls institute after receiving the temperature signal
Compressor is stated to open or close.
Further, the high-efficiency adsorption dryer further include:
Pedestal, the left adsorption tower and the right adsorption tower are respectively provided on the pedestal.
The above-mentioned technical proposal of the utility model has the beneficial effect that:
According to the high-efficiency adsorption dryer of the utility model embodiment, by the connection of pipeline and the switching of valve,
Left adsorption tower and right adsorption tower independently can be adsorbed by drying or be regenerated, and can also be dried or be regenerated simultaneously, deduster
The air that can be sucked to air blower is dusted, and is avoided bringing micronic dust in adsorption tower into regenerative process, is avoided dust particale
Pollute adsorbent, avoid dust particale to adsorbent be adsorbed by drying and the influence of regenerative process, improve the drying and again of air
It comes into force fruit, reproduction speed is fast.
Detailed description of the invention
Fig. 1 is the connection schematic diagram of the high-efficiency adsorption dryer of the utility model embodiment.
Appended drawing reference:
High-efficiency adsorption dryer 100;
Left adsorption tower 10;
Right adsorption tower 20;
Lower pipeline 30;Intake valve 31;Air inlet pipe 32;Lower regenerating tube 33;
Lower regeneration valve 34;Regenerate escape pipe 35;
Upper pipeline 40;Air outlet valve 41;Escape pipe 42;Upper regenerating tube 43;
Upper regeneration valve 44;Regenerate air inlet pipe 45;
Air blower 50;Heater 51;
Deduster 60;Flow sensor 61;Alarm 62;Controller 63;
Pressure sensor 64;Humidity sensor 65;Temperature sensor 66;
Compressor 70.
Specific embodiment
It is practical new below in conjunction with this to keep the objectives, technical solutions, and advantages of the embodiments of the present invention clearer
The technical solution of the utility model embodiment is clearly and completely described in the attached drawing of type embodiment.Obviously, described
Embodiment is a part of the embodiment of the utility model, instead of all the embodiments.Based on described the utility model
Embodiment, those of ordinary skill in the art's every other embodiment obtained, fall within the protection scope of the utility model.
The high-efficiency adsorption dryer 100 according to the utility model embodiment is specifically described with reference to the accompanying drawing.
As shown in Figure 1, the high-efficiency adsorption dryer 100 according to the utility model embodiment includes:
Left adsorption tower 10 and right adsorption tower 20;
Lower pipeline 30, the both ends of lower pipeline 30 are connected to left adsorption tower 10 with the lower end of right adsorption tower 20 respectively;
Two intake valves 31, two intake valves 31 are respectively provided on lower pipeline 30;
Air inlet pipe 32, one end of air inlet pipe 32 are connected to and are located between two intake valves 31, air inlet pipe 32 with lower pipeline 30
The other end for being connected with compressor;
Lower regenerating tube 33, the both ends of lower regenerating tube 33 are connected to lower pipeline 30 respectively, and two intake valves 31 are located at lower regeneration
Position between the both ends of pipe 33;
Two lower regeneration valves 34, two lower regeneration valves 34 are respectively provided on lower regenerating tube 33;
Regenerate escape pipe 35, the one end for regenerating escape pipe 35 be connected to lower regenerating tube 33 and positioned at two lower regeneration valves 34 it
Between position;
Upper pipeline 40, the both ends of upper pipeline 40 are connected to left adsorption tower 10 with the upper end of right adsorption tower 20 respectively;
Two air outlet valves 41, two air outlet valves 41 are respectively provided on pipeline 40;
Escape pipe 42, one end of escape pipe 42 are connected to upper pipeline 40 and are located between two air outlet valves 41;
Upper regenerating tube 43, the both ends of upper regenerating tube 43 are connected to upper pipeline 40 respectively, and two air outlet valves 41 are located at upper regeneration
Position between the both ends of pipe 43;
Two upper regeneration valves 44, two upper regeneration valves 44 are respectively provided on regenerating tube 43;
Regenerate air inlet pipe 45, the one end for regenerating air inlet pipe 45 be connected to upper regenerating tube 43 and gone up positioned at two regeneration valves 44 it
Between position;
Air blower 50 and heater 51, air blower 50 are located at the other end of regeneration air inlet pipe 45, and heater 51 is located at regeneration
The middle part of air inlet pipe 45, heater 51 are used for the air that heater blower 50 sucks;
Deduster 60, deduster 60 is located in regeneration air inlet pipe 45 and the position between air blower 50 and heater 51
It sets, the air that deduster 60 is used to suck air blower 50 is dusted, and deduster 60 can be electrostatic precipitator, and air passes through
It after 60 dedusting of deduster, avoids bringing micronic dust in adsorption tower into regenerative process, dust particale is avoided to pollute adsorbent, reduce micro-
Dirt particle is on adsorbent dry air or regenerated influence.
In some embodiments of the utility model, high-efficiency adsorption dryer 100 further include:
Flow sensor 61, flow sensor 61 be located in regeneration air inlet pipe 45 and be located at air blower 50 and heater 51 it
Between position, flow sensor 61 be used for measure air blower 50 sucking air flow simultaneously generate corresponding flow signal, flow
Quantity sensor 61 being capable of transmitted traffic signal;
Alarm 62, alarm 62 can receive flow signal, and alarm 62 is alarmed or stopped after receiving flow signal
Only alarm.For example, the flow that flow sensor 61 measures the air of the sucking of air blower 50 reaches setting value, generation can alarm
Flow signal, alarm 62 alarms after receiving the flow signal that can be alarmed.
In other embodiments of the utility model, high-efficiency adsorption dryer 100 further include:
Controller 63, controller 63 can receive flow signal, and controller 63 controls heating after receiving flow signal
Device 51 opens or closes.For example, the flow that flow sensor 61 measures the air of the sucking of air blower 50 reaches setting value, generate
The flow signal of the closing of heater 51 can be controlled, after controller 63 receives the flow signal that can control the closing of heater 51
Heater 51 is controlled to close.When the flow for the air that air blower 50 sucks is smaller, the closing of heater 51 can control, after inspection again
It is opened, prevents heater 51 from burning out.
Some embodiments according to the present utility model, high-efficiency adsorption dryer 100 further include:
The air outlet of compressor 70, compressor 70 is connected to the other end of air inlet pipe 32.
Other embodiments according to the present utility model, high-efficiency adsorption dryer 100 further include:
Pressure sensor 64, pressure sensor 64 are located at the other end of escape pipe 42, and pressure sensor 64 is for detecting
The pressure of the air of the other end of tracheae 42 simultaneously generates corresponding pressure signal, and pressure sensor 64 can send pressure signal;
Controller 63 can receive pressure signal, controller 63 receive control compressor 70 after pressure signal open or
It closes.For example, pressure sensor 64 detects that the pressure of the air of the other end of escape pipe 42 reaches setting value, generation can be controlled
The pressure signal that compressor 70 processed is closed, controller 63 control pressure after receiving the pressure signal that can control the closing of compressor 70
Contracting machine 70 is closed.Break down or adsorption tower in moisture it is more when, cause the pressure of the air of the other end of escape pipe 42 compared with
Hour, compressor 70 can be controlled by pressure signal and closed, is dried again after maintenance or regeneration.
In certain embodiments, high-efficiency adsorption dryer 100 further include:
Humidity sensor 65, humidity sensor 65 are located at the other end of escape pipe 42, and humidity sensor 65 is for detecting
The humidity of the air of the other end of tracheae 42 simultaneously generates corresponding moisture signal, and humidity sensor 65 can send moisture signal;
Controller 63 can receive moisture signal, controller 63 receive control compressor 70 after moisture signal open or
It closes.For example, humidity sensor 65 detects that the humidity of the air of the other end of escape pipe 42 reaches setting value, generation can be controlled
The moisture signal that compressor 70 processed is closed, controller 63 control pressure after receiving the moisture signal that can control the closing of compressor 70
Contracting machine 70 is closed.When the humidity of the air of the other end of escape pipe 42 is larger, the drying effect of adsorption tower is poor, needs to regenerate,
Controller 63 can control compressor 70 by the moisture signal received and close, to be regenerated.
In other specific embodiments, high-efficiency adsorption dryer 100 further include:
Temperature sensor 66, temperature sensor 66 are located at the other end of escape pipe 42, and temperature sensor 66 is for detecting
The temperature of the air of the other end of tracheae 42 simultaneously generates corresponding temperature signal, and temperature sensor 66 can send temperature signal;
Controller 63 can receive temperature signal, controller 63 receive control compressor 70 after temperature signal open or
It closes.For example, temperature sensor 66 detects that the temperature of the air of the other end of escape pipe 42 reaches setting value, generation can be controlled
The temperature signal that compressor 70 processed is closed, controller 63 control pressure after receiving the temperature signal that can control the closing of compressor 70
Contracting machine 70 is closed.
In the implementation process of some embodiments, high-efficiency adsorption dryer 100 further include: pedestal, left 10 He of adsorption tower
Right adsorption tower 20 is respectively provided on pedestal.
In drying machine use process, as shown in Figure 1, when left 10 dry air of adsorption tower, the air of the sucking of compressor 70
Enter in left adsorption tower 10 from the lower end of left adsorption tower 10, air is flowed out from the upper end of left adsorption tower 10 after drying, from out
Tracheae 42 flows out, to provide dry air for subsequent handling.In the regeneration of left adsorption tower 10, the air that air blower 50 sucks passes through
After 60 dedusting of deduster, enter in left adsorption tower 10 after being heated using heater 51 from the upper end of left adsorption tower 10, left absorption
Water in tower 10 is vaporized under the action of hot-air and is flowed out under the drive of hot-air from the lower end of left adsorption tower 10, by again
The outflow of tracheae 35 is born, completes the regeneration of left adsorption tower 10 after a period of time.The air drying process of right adsorption tower 20 and
Regeneration is identical as the Principle of Process of left adsorption tower 10, repeats no more, in production, can be with a tower dry air, another tower
Regeneration, provides dry air incessantly.
According to the high-efficiency adsorption dryer 100 of the utility model embodiment, pass through the connection of pipeline and cutting for valve
It changes, left adsorption tower 10 and right adsorption tower 20 independently can be adsorbed by drying or be regenerated, and can be dried or be regenerated simultaneously, remove
The air that dirt device 60 can suck air blower 50 is dusted, and is avoided bringing micronic dust in adsorption tower into regenerative process, be avoided
Dust particale pollute adsorbent, avoid dust particale to adsorbent be adsorbed by drying and the influence of regenerative process, improve air
Dry and regeneration effect, reproduction speed are fast.It can be carried out according to pressure, the temperature and humidity of the air of the other end of escape pipe 42
Alarm and control opening or closing for compressor 70.
The above is preferred embodiments of the present invention, it is noted that for the ordinary skill of the art
For personnel, under the premise of not departing from principle described in the utility model, it can also make several improvements and retouch, these improvement
It also should be regarded as the protection scope of the utility model with retouching.
Claims (2)
1. a kind of high-efficiency adsorption dryer characterized by comprising
Left adsorption tower and right adsorption tower;
Lower pipeline, the both ends of the lower pipeline are connected to the left adsorption tower with the lower end of the right adsorption tower respectively;
Two intake valves, two intake valves are respectively provided on the lower pipeline;
Air inlet pipe, one end of the air inlet pipe are connected to and are located between two intake valves, the air inlet with the lower pipeline
The other end of pipe with compressor for being connected;
Lower regenerating tube, the both ends of the lower regenerating tube are connected to the lower pipeline respectively, two intake valves be located at it is described under
Position between the both ends of regenerating tube;
Two lower regeneration valves, two lower regeneration valves are respectively provided on the lower regenerating tube;
Regenerate escape pipe, one end of the regeneration escape pipe be connected to the lower regenerating tube and positioned at two lower regeneration valves it
Between position;
Upper pipeline, the both ends of the upper pipeline are connected to the left adsorption tower with the upper end of the right adsorption tower respectively;
Two air outlet valves, two air outlet valves are respectively provided on the upper pipeline;
Escape pipe, one end of the escape pipe are connected to the upper pipeline and are located between two air outlet valves;
Upper regenerating tube, the both ends of the upper regenerating tube are connected to the upper pipeline respectively, and two air outlet valves are located on described
Position between the both ends of regenerating tube;
Two upper regeneration valves, two upper regeneration valves are respectively provided on the upper regenerating tube;
Regenerate air inlet pipe, one end of the regeneration air inlet pipe be connected to the upper regenerating tube and positioned at two upper regeneration valves it
Between position;
Air blower and heater, the air blower are located at the other end of the regeneration air inlet pipe, the heater be located at it is described again
The middle part of raw air inlet pipe, the heater are used to heat the air of the air blower sucking;
Deduster, the deduster is located in the regeneration air inlet pipe and the position between the air blower and the heater
It sets, the air that the deduster is used to suck the air blower is dusted;
Further include:
Flow sensor, the flow sensor are located in the regeneration air inlet pipe and are located at the air blower and the heater
Between position, the flow that the flow sensor is used to measure the air of air blower sucking simultaneously generates corresponding flow letter
Number, the flow sensor can send the flow signal;
Alarm, the alarm can receive the flow signal, and the alarm is reported after receiving the flow signal
Alert or stop alarm;
Further include:
Controller, the controller can receive the flow signal, and the controller is controlled after receiving the flow signal
The heater is made to open or close;
Further include:
Compressor, the air outlet of the compressor are connected to the other end of the air inlet pipe;
Further include:
Pressure sensor, the pressure sensor are located at the other end of the escape pipe, and the pressure sensor is for detecting institute
It states the pressure of the air of the other end of escape pipe and generates corresponding pressure signal, the pressure sensor can send the pressure
Force signal;
The controller can receive the pressure signal, and the controller controls the pressure after receiving the pressure signal
Contracting machine opens or closes;
Further include:
Humidity sensor, the humidity sensor are located at the other end of the escape pipe, and the humidity sensor is for detecting institute
It states the humidity of the air of the other end of escape pipe and generates corresponding moisture signal, the humidity sensor can send described wet
Spend signal;
The controller can receive the moisture signal, and the controller controls the pressure after receiving the moisture signal
Contracting machine opens or closes;
Further include:
Temperature sensor, the temperature sensor are located at the other end of the escape pipe, and the temperature sensor is for detecting institute
It states the temperature of the air of the other end of escape pipe and generates corresponding temperature signal, the temperature sensor can send the temperature
Spend signal;
The controller can receive the temperature signal, and the controller controls the pressure after receiving the temperature signal
Contracting machine opens or closes.
2. high-efficiency adsorption dryer according to claim 1, which is characterized in that further include:
Pedestal, the left adsorption tower and the right adsorption tower are respectively provided on the pedestal.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821596223.9U CN209317394U (en) | 2018-09-29 | 2018-09-29 | A kind of high-efficiency adsorption dryer |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821596223.9U CN209317394U (en) | 2018-09-29 | 2018-09-29 | A kind of high-efficiency adsorption dryer |
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Publication Number | Publication Date |
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CN209317394U true CN209317394U (en) | 2019-08-30 |
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ID=67707393
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CN201821596223.9U Expired - Fee Related CN209317394U (en) | 2018-09-29 | 2018-09-29 | A kind of high-efficiency adsorption dryer |
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Country | Link |
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CN (1) | CN209317394U (en) |
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2018
- 2018-09-29 CN CN201821596223.9U patent/CN209317394U/en not_active Expired - Fee Related
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CF01 | Termination of patent right due to non-payment of annual fee | ||
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Granted publication date: 20190830 Termination date: 20210929 |