CN206229164U - Zero gas consumption compression heat regenerative drying machine - Google Patents

Abstract

The utility model is related to a kind of zero gas consumption compression heat regenerative drying machine, including the first drying tower, the second drying tower, the first separator, the second separator, the first cooler and the second cooler etc.；Whole process is without gas consumption, economical and energy saving and outlet dew point stabilization during utility model works.

Description

Zero gas consumption compression heat regenerative drying machine

Technical field

The utility model is related to a kind of drying machine, and the utility model is dry more particularly, to a kind of zero gas consumption compression heat regenerative Dry machine.

Background technology

Dried-air drier is that a kind of hygroscopic water (referring generally to moisture or other volatile liquid components) that can make in air is escaped Go out, to obtain the machine of dry air.

The content of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art, there is provided a kind of economical and energy saving and outlet dew point Stabilization.

According to the technical scheme that the utility model is provided, the zero gas consumption compression heat regenerative drying machine, including first is dry Dry tower, the second drying tower, the first separator, the second separator, the first cooler and the second cooler；

The first tracheae is connected with the first interface of the first drying tower, the first pneumatic operated valve is installed on the first tracheae, The second tracheae is connected with the second interface of the first drying tower, the 3rd pneumatic operated valve is installed on the second tracheae, it is dry second The 3rd tracheae is connected with the first interface of dry tower, the second pneumatic operated valve is installed on the 3rd tracheae, the of the second drying tower The 4th tracheae is connected with two interfaces, the 4th pneumatic operated valve is installed on the 4th tracheae, the first tracheae is another with the 3rd tracheae End is in parallel to access blast pipe, and one end of the first tracheae is connected on the first tracheae, and the other end of the 5th tracheae is connected to the 3rd gas Guan Shang, the 5th pneumatic operated valve and the 6th pneumatic operated valve are provided with the 5th tracheae；

One end of 6th tracheae is connected on the second tracheae, and the other end of the 6th tracheae is connected on the 4th tracheae, 7th pneumatic operated valve and the 8th pneumatic operated valve are installed on six tracheaes；It is pneumatic with the 8th that one end of 7th tracheae is connected to the 7th pneumatic operated valve On the 6th tracheae between valve, the other end of the 7th tracheae accesses the first interface of the first separator, the second of the first separator Interface accesses the first interface of the first cooler by connecting tube；

The outlet side of air inlet pipe separates tie point pipe and the second bypass duct, and it is pneumatic to be provided with the 9th on tie point pipe Valve, the tenth pneumatic operated valve and the 11st pneumatic operated valve, are provided with the second cooler, the second separator and the 12nd in the second bypass duct Pneumatic operated valve, the second interface of the first cooler is connected on first between the tenth pneumatic operated valve and the 11st pneumatic operated valve by connecting tube On the pipe of road；

It is connected the 8th tracheae after the outlet side parallel connection of the outlet side of tie point pipe and the second bypass duct, the 8th tracheae, the Two tracheaes are in parallel with the other end of the 4th tracheae to access the 4th temperature transmitter, and one end of the 9th tracheae is connected to the 9th pneumatic operated valve On the tie point pipe between the tenth pneumatic operated valve, the other end of the 9th tracheae be connected to the 5th pneumatic operated valve and the 6th pneumatic operated valve it Between the 5th tracheae on, the 3rd temperature transmitter is installed on the tie point of the 9th tracheae and the 5th tracheae.

The first water trap is connected with the 3rd interface of first separator.

The second water trap is connected with the 3rd interface of second separator.

First temperature transmitter and pressure transmitter are installed in the air inlet pipe.

Second temperature transmitter is installed on blast pipe.

The 5th temperature transmitter is installed on pipeline between the first separator and the first cooler.

Whole process is without gas consumption, economical and energy saving and outlet dew point stabilization during utility model works.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model.

Specific embodiment

With reference to specific embodiment, the utility model is described in further detail.

The zero gas consumption compression heat regenerative drying machine, including the first drying tower 11, the second drying tower 21, the first separator 12nd, the second separator 22, the first cooler 13 and the second cooler 23；

The first tracheae 1 is connected with the first interface of the first drying tower 11, it is pneumatic to be provided with first on the first tracheae 1 Valve 31, is connected with the second tracheae 2 in the second interface of the first drying tower 11, and the 3rd pneumatic operated valve is provided with the second tracheae 2 33, the 3rd tracheae 3 is connected with the first interface of the second drying tower 21, the second pneumatic operated valve 32 is installed on the 3rd tracheae 3, The 4th tracheae 4 is connected with the second interface of the second drying tower 21, the 4th pneumatic operated valve 34 is installed on the 4th tracheae 4, the One tracheae 1 is in parallel with the other end of the 3rd tracheae 3 to access blast pipe 02, and one end of the first tracheae 1 is connected on the first tracheae 1, The other end of the 5th tracheae 5 is connected on the 3rd tracheae 3, and it is pneumatic with the 6th to be provided with the 5th pneumatic operated valve 35 on the 5th tracheae 5 Valve 36；

One end of 6th tracheae 6 is connected on the second tracheae 2, and the other end of the 6th tracheae 6 is connected on the 4th tracheae 4, The 7th pneumatic operated valve 37 and the 8th pneumatic operated valve 38 are installed on the 6th tracheae 6；One end of 7th tracheae 7 is connected to the 7th pneumatic operated valve 37 and the 8th the 6th tracheae 6 between pneumatic operated valve 38 on, the other end of the 7th tracheae 7 accesses the first of the first separator 12 and connects Mouthful, the second interface of the first separator 12 accesses the first interface of the first cooler 13 by connecting tube；

The outlet side of air inlet pipe 01 separates the bypass duct 52 of tie point pipe 51 and second, is provided with tie point pipe 51 9th pneumatic operated valve 39, the tenth pneumatic operated valve 40 and the 11st pneumatic operated valve 41, be provided with the second bypass duct 52 second cooler 23, Second separator 22 and the 12nd pneumatic operated valve 42, the second interface of the first cooler 13 are connected on the tenth pneumatic operated valve 40 by connecting tube On the tie point pipe 51 between the 11st pneumatic operated valve 41；

The outlet side of tie point pipe 51 is connected the 8th tracheae 8, the 8th gas with after the outlet side parallel connection of the second bypass duct 52 Pipe 8, the second tracheae 2 are in parallel with the other end of the 4th tracheae 4 to access the 4th temperature transmitter 74, one end connection of the 9th tracheae 9 On tie point pipe 51 between the 9th pneumatic operated valve 39 and the tenth pneumatic operated valve 40, the other end of the 9th tracheae 9 is connected to the 5th On the 5th tracheae 5 between the pneumatic operated valve 36 of pneumatic operated valve 35 and the 6th, installed on the tie point of the 9th tracheae 9 and the 5th tracheae 5 There is the 3rd temperature transmitter 73.

The first water trap 61 is connected with the 3rd interface of first separator 12.

The second water trap 62 is connected with the 3rd interface of second separator 22.

First temperature transmitter 71 and pressure transmitter 8 are installed in the air inlet pipe 01.

Second temperature transmitter 72 is installed on blast pipe 02.

The 5th temperature transmitter 75 is installed on pipeline between the first separator 12 and the first cooler 13.

During work, the high temperature compressed air without cooling enters the first drying tower 11, to being adsorbed in the first drying tower 11 Adsorbent carry out desorption and regeneration, air-flow is lowered the temperature through the first cooler 13 again, condensed water by the first separator 12 separate after pass through First water trap 61 is discharged, and the compressed air after cooling enters back into the second drying tower 21, after being adsorbed by drying treatment, outlet air Dew-point temperature is down to less than -40 DEG C, and dry air is input into finished product air hose net through pneumatic operated valve.Adsorbent is again in first drying tower 11 After life is finished, the high temperature compressed air without cooling is lowered the temperature into the second cooler 23, and condensed water passes through 22 points of the second separator Discharged through the second water trap 62 after, the air-flow after cooling enter back into the adsorbent that 11 pairs, the first drying tower dries high temperature carry out it is cold Blow until normal temperature, then air-flow enters back into the second drying tower 21, finished product air hose net is input into after being adsorbed by drying treatment, this is half In the individual cycle, the lower half cycle, then the first drying tower 11 was adsorbed by drying, and the second drying tower 21 carries out desorption and regeneration, so continuously not Dry air is exported disconnectedly.

Claims (5)

1. a kind of zero gas consumption compression heat regenerative drying machine, including the first drying tower（11）, the second drying tower（21）, first separate Device（12）, the second separator（22）, the first cooler（13）With the second cooler（23）；

It is characterized in that：In the first drying tower（11）First interface on be connected with the first tracheae（1）, in the first tracheae（1）Upper peace Equipped with the first pneumatic operated valve（31）, in the first drying tower（11）Second interface on be connected with the second tracheae（2）, in the second tracheae （2）On the 3rd pneumatic operated valve is installed（33）, in the second drying tower（21）First interface on be connected with the 3rd tracheae（3）, Three tracheaes（3）On the second pneumatic operated valve is installed（32）, in the second drying tower（21）Second interface on be connected with the 4th tracheae （4）, in the 4th tracheae（4）On the 4th pneumatic operated valve is installed（34）, the first tracheae（1）With the 3rd tracheae（3）The other end it is in parallel Access blast pipe（02）, the first tracheae（1）One end be connected to the first tracheae（1）On, the 5th tracheae（5）The other end be connected to 3rd tracheae（3）On, in the 5th tracheae（5）On the 5th pneumatic operated valve is installed（35）With the 6th pneumatic operated valve（36）；

6th tracheae（6）One end be connected to the second tracheae（2）On, the 6th tracheae（6）The other end be connected to the 4th tracheae（4） On, in the 6th tracheae（6）On the 7th pneumatic operated valve is installed（37）With the 8th pneumatic operated valve（38）；7th tracheae（7）One end connection In the 7th pneumatic operated valve（37）With the 8th pneumatic operated valve（38）Between the 6th tracheae（6）On, the 7th tracheae（7）The other end access the One separator（12）First interface, the first separator（12）Second interface by connecting tube access the first cooler（13）'s First interface；

Air inlet pipe（01）Outlet side separate tie point pipe（51）With the second bypass duct（52）, in tie point pipe（51）Upper peace Equipped with the 9th pneumatic operated valve（39）, the tenth pneumatic operated valve（40）With the 11st pneumatic operated valve（41）, in the second bypass duct（52）On be provided with Second cooler（23）, the second separator（22）With the 12nd pneumatic operated valve（42）, the first cooler（13）Second interface pass through Connecting tube is connected on the tenth pneumatic operated valve（40）With the 11st pneumatic operated valve（41）Between tie point pipe（51）On；

Tie point pipe（51）Outlet side and the second bypass duct（52）Outlet side parallel connection after connect the 8th tracheae（8）, the 8th Tracheae（8）, the second tracheae（2）With the 4th tracheae（4）The other end in parallel access the 4th temperature transmitter（74）, the 9th tracheae （9）One end be connected to the 9th pneumatic operated valve（39）With the tenth pneumatic operated valve（40）Between tie point pipe（51）On, the 9th tracheae （9）The other end be connected to the 5th pneumatic operated valve（35）With the 6th pneumatic operated valve（36）Between the 5th tracheae（5）On, in the 9th tracheae （9）With the 5th tracheae（5）Tie point on the 3rd temperature transmitter is installed（73）.

2. zero gas consumption compression heat regenerative drying machine as claimed in claim 1, it is characterized in that：In first separator（12） The 3rd interface on be connected with the first water trap（61）.

3. zero gas consumption compression heat regenerative drying machine as claimed in claim 1, it is characterized in that：In second separator（22） The 3rd interface on be connected with the second water trap（62）.

4. zero gas consumption compression heat regenerative drying machine as claimed in claim 1, it is characterized in that：In the air inlet pipe（01）Upper peace Equipped with the first temperature transmitter（71）With pressure transmitter（8）.

5. zero gas consumption compression heat regenerative drying machine as claimed in claim 1, it is characterized in that：In blast pipe（02）On be provided with Second temperature transmitter（72）.