CN209317396U - A kind of energy conservation absorption type dryer - Google Patents

Abstract

The utility model provides a kind of energy saving absorption type 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；Lower regenerating tube, the both ends of lower regenerating tube are connected to lower pipeline respectively, two intake valves, regenerate escape pipe；Upper pipeline, the both ends of upper pipeline are connected to left adsorption tower with the upper end of right adsorption tower respectively；Two air outlet valves being located on pipeline；Escape pipe；Upper regenerating tube, the both ends of upper regenerating tube are connected to upper pipeline respectively；Two upper regeneration valves, regenerate air inlet pipe；Air blower and heater, heater are used for the air of heater blower sucking；Heat exchanger between air blower and heater；The other end of regeneration escape pipe is connected to the hot fluid inlet of heat exchanger, and heat exchanger is used for the air of heater blower sucking.The drying machine dry air and regenerated high-efficient, low energy consumption.

Description

A kind of energy conservation absorption type dryer

Technical field

The utility model relates to dried-air drier technical field, in particular to a kind of energy saving absorption type dryer.

Background technique

The air of clean dried is gas source important in industrial production, and the degree of drying of air has industrial production important It influences, for example, production technology or product quality may be influenced.Although existing dried-air drier can satisfy common air It is dry to require, but existing drying machine drying efficiency is low, the regeneration effect of adsorbent is bad, and reproduction speed is slow, and energy consumption is high, cannot It is dried and the regeneration of adsorbent, makes troubles to production simultaneously.

Utility model content

In view of this, the present invention provides a kind of energy saving absorption type dryers.

In order to solve the above technical problems, the utility model uses following technical scheme:

According to the energy saving absorption type 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 can be used in heating the air of the air blower sucking；

Heat exchanger, the heat exchanger is located at the other end of the regeneration air inlet pipe, and the heat exchanger is located at institute State the position between air blower and the heater；

The other end of the regeneration escape pipe is connected to the hot fluid inlet of the heat exchanger, and the heat exchanger can For heating the air of the air blower sucking.

Further, the other end of the regeneration escape pipe is equipped with regulating valve.

Further, the energy saving absorption type dryer further include:

Exhaust pipe, one end of the exhaust pipe are connected to the hot fluid outlet ports of the heat exchanger, the exhaust pipe it is another One end is far from the heat exchanger.

Further, the energy saving absorption type dryer further include:

Temperature-sensitive sticker, the temperature-sensitive sticker are located at the other end of the escape pipe, for sensing from the escape pipe Other end outflow air temperature and generate corresponding temperature signal, the temperature-sensitive sticker can send temperature letter Number；

Alarm, the alarm can receive the temperature signal, and the alarm receives the temperature signal The alarm starts alarm or stop alarm afterwards.

Further, the energy saving absorption type dryer further include:

Humidity sensor, the humidity sensor are located at the other end of the escape pipe, for sensing from the escape pipe Other end outflow air humidity and generate corresponding moisture signal, the humidity sensor can send humidity letter Number；

The alarm can receive the moisture signal, and the alarm receives the report after the moisture signal Alert device starts alarm or stop alarm.

Further, the energy saving absorption type dryer further include:

Compressor, the air outlet of the compressor are connected to the other end of the air inlet pipe.

Further, the energy saving absorption type dryer further include:

Controller, the controller can receive the temperature signal, and the controller receives the temperature signal After control the compressor and open or close.

Further, the controller can receive the moisture signal, and the controller receives the humidity letter The compressor is controlled after number to open or close.

The above-mentioned technical proposal of the utility model has the beneficial effect that:

According to the energy saving absorption type dryer of the utility model embodiment, pass through valve in the connection of pipeline and pipeline Switching enables to left adsorption tower and right adsorption tower that air or regeneration is individually dried, can dry or regenerate simultaneously, increases The efficiency of dry air, by heater can accelerate regeneration efficiency, can will be remained in air after regeneration by heat exchanger Remaining heat is used to the air of heater blower sucking, improves heat utilization ratio, reduces energy consumption, is regenerated by outside air Consumption dry air is not needed.

Detailed description of the invention

Fig. 1 is the connection schematic diagram of the energy saving absorption type dryer of the utility model embodiment.

Appended drawing reference:

Energy saving absorption type 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；Heat exchanger 52；Regulating valve 53；Exhaust pipe 54；

Temperature-sensitive sticker 60；Alarm 61；Humidity sensor 62；Controller 63；

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 energy saving absorption type dryer 100 according to the utility model embodiment is specifically described with reference to the accompanying drawing.

As shown in Figure 1, the energy saving absorption type 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 can be used in the air of the sucking of heater blower 50；

Heat exchanger 52, heat exchanger 52 is located at the other end of regeneration air inlet pipe 45, and heat exchanger 52 is located at air blower Position between 50 and heater 51；It is heated by the air that heat exchanger 52 can suck for air blower 50, improves heat Utilization rate is measured, energy consumption is reduced.

The other end of regeneration escape pipe 35 is connected to the hot fluid inlet of heat exchanger 52, and heat exchanger 52 can be used in adding The air that hot-air blower 50 sucks.

In some embodiments of the utility model, the other end of regeneration escape pipe 35 is equipped with regulating valve 53, can be again The middle part for bearing tracheae 35 is equipped with blow-down pipe, and blow valve can be equipped on blow-down pipe, can will be from regenerating by blow-down pipe The air that tracheae 35 flows through directly is vented in atmosphere.

In other embodiments of the utility model, energy saving absorption type dryer 100 further include:

One end of exhaust pipe 54, exhaust pipe 54 is connected to the hot fluid outlet ports of heat exchanger 52, the other end of exhaust pipe 54 Far from heat exchanger 52.Exhaust pipe 54 can will enter the row of the hot fluid in heat exchanger 52 distally.

Some embodiments according to the present utility model, energy saving absorption type dryer 100 further include:

Temperature-sensitive sticker 60, temperature-sensitive sticker 60 are located at the other end of escape pipe 42, for sensing from the another of escape pipe 42 The temperature of the air of one end outflow simultaneously generates corresponding temperature signal, and temperature-sensitive sticker 60 can send temperature signal；

Alarm 61, alarm 61 can receive temperature signal, and alarm 61 receives alarm 61 after temperature signal Start alarm or stop alarm.For example, temperature-sensitive sticker 60 senses the temperature of the air flowed out from the other end of escape pipe 42 Excessively high, when being more than predetermined value, temperature-sensitive sticker 60 generates the temperature signal that can correspondingly be alarmed, and alarm 61 receives can Start to alarm after the temperature signal of alarm.

Other embodiments according to the present utility model, energy saving absorption type dryer 100 further include:

Humidity sensor 62, humidity sensor 62 are located at the other end of escape pipe 42, for sensing from the another of escape pipe 42 The humidity of the air of one end outflow simultaneously generates corresponding moisture signal, and humidity sensor 62 can send moisture signal；

Alarm 61 can receive moisture signal, alarm 61 receive alarm 61 after moisture signal start alarm or Stop alarm.For example, the humidity that humidity sensor 62 senses the air flowed out from the other end of escape pipe 42 is more than certain value The moisture signal that Shi Shengcheng can alarm, alarm 61 starts to alarm after alarm 61 receives the moisture signal that can be alarmed, Air humidity after reminding operator dry is excessively high, is being dried after needing to carry out regenerative process.

In certain embodiments, energy saving absorption type dryer 100 further include:

The air outlet of compressor 70, compressor 70 is connected to the other end of air inlet pipe 32.

In other specific embodiments, energy saving absorption type dryer 100 further include:

Controller 63, controller 63 can receive temperature signal, and controller 63 controls compression after receiving temperature signal Machine 70 opens or closes.For example, the temperature that temperature-sensitive sticker 60 senses the air flowed out from the other end of escape pipe 42 is excessively high, When more than predetermined value, temperature-sensitive sticker 60 generates and sends the temperature signal for capableing of close compressor 70, and controller 63 receives The closing of compressor 70 can be controlled after the temperature signal of close compressor 70.

In the specific implementation process of some embodiments, controller 63 can receive moisture signal, and controller 63 receives Compressor 70 is controlled after to moisture signal to open or close.For example, humidity sensor 62 senses the other end from escape pipe 42 The moisture signal for capableing of close compressor 70 is generated when the humidity of the air of outflow is more than certain value, controller 63 receives can Compressor 70 is controlled after the moisture signal of close compressor 70 to close, and is stopped drying process, is done again after can checking processing Dry, the air humidity after drying is difficult to meet needs when excessive, at this point it is possible to which compressor 70 is automatically closed, reduces waste of energy

In use, as shown in Figure 1, in the drying process of left adsorption tower 10, the left side on lower pipeline 30 is opened Intake valve 31, close the intake valve 31 on the right, close the lower regeneration valve 34 on the left side, open the air outlet valve 41 on the left side, close right The air outlet valve 41 on side closes the upper regeneration valve 44 on the left side, sucks air by compressor 70, air is from the lower end of left adsorption tower 10 Into being dried in left adsorption tower 10, the air after drying is flowed out from the upper end of left adsorption tower 10, is flowed out from escape pipe 42, To realize the drying process of air, to provide dry air for subsequent handling.

When left adsorption tower 10 is regenerated, the upper regeneration valve 44 on the left side is opened, closes the upper regeneration valve 44 on the right, is closed left The air outlet valve 41 on side opens the lower regeneration valve 34 on the left side, closes the lower regeneration valve 34 on the right, closes the intake valve 31 on the left side, beat Regulating valve 53 is opened, the air that air blower 50 sucks is after over-heat-exchanger 52, heater 51 heat from the upper end of left adsorption tower 10 Into in tower, the water in tower on adsorbent vaporizes under high temperature air and as air is from the outflow of the lower end of left adsorption tower 10, so Enter in heat exchanger 52 afterwards, be that the air that air blower 50 sucks is heated by heat exchanger 52, improve heat utilization rate, Reduce energy consumption.The adsorption drying process and regenerative process and the process of left adsorption tower 10 of right adsorption tower 20 are identical as principle, herein It repeats no more, can be regenerated with a tower dry air, another tower, dry air can be provided incessantly.

According to the energy saving absorption type dryer 100 of the utility model embodiment, pass through valve in the connection of pipeline and pipeline The switching of door enables to left adsorption tower 10 that air or regeneration is individually dried with right adsorption tower 20, can dry simultaneously or Regeneration, increases the efficiency of dry air, can accelerate regeneration efficiency by heater, can will be after regeneration by heat exchanger Remaining heat is used to the air of heater blower sucking in air, improves heat utilization ratio, reduces energy consumption, passes through outside air It carries out being regenerated without consumption dry air.

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 (3)

1. a kind of energy conservation absorption type 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 can be used in heating the air of the air blower sucking；

Heat exchanger, the heat exchanger is located at the other end of the regeneration air inlet pipe, and the heat exchanger is located at the drum Position between blower and the heater；

The other end of the regeneration escape pipe is connected to the hot fluid inlet of the heat exchanger, and the heat exchanger can be used in Heat the air of the air blower sucking；

Further include:

Temperature-sensitive sticker, the temperature-sensitive sticker are located at the other end of the escape pipe, for sensing from the another of the escape pipe The temperature of the air of one end outflow simultaneously generates corresponding temperature signal, and the temperature-sensitive sticker can send the temperature signal；

Alarm, the alarm can receive the temperature signal, and the alarm receives institute after the temperature signal It states alarm and starts alarm or stop alarm；

Further include:

Humidity sensor, the humidity sensor are located at the other end of the escape pipe, for sensing from the another of the escape pipe The humidity of the air of one end outflow simultaneously generates corresponding moisture signal, and the humidity sensor can send the moisture signal；

The alarm can receive the moisture signal, and the alarm receives the alarm after the moisture signal Start alarm or stop alarm；

Further include:

Compressor, the air outlet of the compressor are connected to the other end of the air inlet pipe；

Further include:

Controller, the controller can receive the temperature signal, and the controller is controlled after receiving the temperature signal The compressor is made to open or close；

The controller can receive the moisture signal, and the controller controls the pressure after receiving the moisture signal Contracting machine opens or closes.

2. energy conservation absorption type dryer according to claim 1, which is characterized in that the other end of the regeneration escape pipe is set There is regulating valve.

3. energy conservation absorption type dryer according to claim 1, which is characterized in that further include:

Exhaust pipe, one end of the exhaust pipe are connected to the hot fluid outlet ports of the heat exchanger, the other end of the exhaust pipe Far from the heat exchanger.