CN212236656U - Temperature control structure of zero-gas-consumption compression heat dryer - Google Patents

Abstract

The utility model discloses a temperature control structure of zero gas consumption compression heat drying machine, including first adsorption tower and second adsorption tower, the top fixedly connected with pipe of first adsorption tower, the top fixed connection of the one end of first adsorption tower and second adsorption tower is kept away from to a pipe, the top of first adsorption tower and be located the pipe No. two of one side fixedly connected with of a pipe, the one end of first adsorption tower and the top fixed connection of second adsorption tower are kept away from to No. two pipes, the outside fixed mounting of a pipe has two valves No. two, the outside fixed mounting of No. two pipes has two valves No. two, the utility model discloses the beneficial effect who reaches is: the utility model discloses compact structure, easy operation is convenient, and the practicality is strong, sets up six temperature control structures through the inside at zero gas consumption compression heat drying machine for equipment is when using, and adaptable 10% -100% load change can guarantee simultaneously that the tolerance reduces or when stopping using gas, can not influence the regeneration effect of equipment.

Description

Temperature control structure of zero-gas-consumption compression heat dryer

Technical Field

The utility model relates to a temperature control structure, in particular to temperature control structure of zero gas consumption compression heat drying machine belongs to drying equipment technical field.

Background

In the existing life, the application of compressed air is more and more extensive no matter industrial or civil, and the compressed air purification technology is more and more advanced.

However, most of the existing zero-gas-consumption compression heat dryers are not provided with a corresponding temperature control structure when in use, so that the equipment cannot adapt to 10% -100% load change, the use effect of the equipment is poor, and the regeneration effect of the equipment is influenced when the gas consumption is reduced or stopped.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome prior art's defect, provide a temperature control structure of zero gas consumption compression heat drying machine.

In order to solve the technical problem, the utility model provides a following technical scheme:

the utility model relates to a temperature control structure of zero gas consumption compression heat drying machine, including first adsorption tower and second adsorption tower, No. one pipe of top fixedly connected with of first adsorption tower, the top fixed connection of the one end of first adsorption tower and second adsorption tower is kept away from to a pipe, the top of first adsorption tower and be located No. two pipes of one side fixedly connected with of a pipe, the top fixed connection of the one end of first adsorption tower and second adsorption tower is kept away from to No. two pipes, the outside fixed mounting of a pipe has two valves, the outside fixed mounting of No. two pipes has two valves.

As an optimized scheme of the utility model, the outside of a pipe and be located fixedly connected with blast pipe between two valves, the outside fixed mounting of blast pipe has a temperature controller No. one, the one end fixed mounting that a pipe was kept away from to the blast pipe has No. two temperature controller, the outside of No. two pipes and be located between two No. two valves fixed mounting have No. three temperature controller.

As a preferred scheme of the utility model, No. two outside of managing and be located No. three pipes of one side fixedly connected with of No. three temperature controller, No. three outside of managing is close to No. two one end fixedly connected with No. four pipes of managing, No. three outside of managing and be located No. four one side fixed mounting of managing have No. three valves, No. three outside of managing is kept away from No. two one end fixed mounting of managing and is had No. six temperature controller, No. three outside of managing just is located No. three valves and No. six temperature controller between fixedly connected with No. five pipes.

As an optimized scheme of the utility model, the outside fixed mounting of No. four pipes has vice cooler, the outside of No. four pipes and the one side fixed mounting that is located vice cooler have eight valves, the outside of No. five pipes is close to No. three one end fixedly connected with No. four valves of pipe, the outside of No. five pipes and the one side fixedly connected with No. six pipes that are located No. four valves, the outside of No. five pipes and the one side fixed mounting that is located No. six pipes have main cooler, the outside of No. five pipes and the one side fixed mounting that is located main cooler have the separator, the outside of No. five pipes and the one side fixed mounting that is located the separator have No. four temperature controllers, No. four pipes keep away from the one end of No. three pipes and the outside fixed connection of No. six pipes, the outside of No. six pipes and be located between No. four pipes fixed mounting have No. five valves.

As a preferable proposal of the utility model, the bottom of the first adsorption tower is fixedly connected with a No. seven pipe, one end of the fifth pipe, which is far away from the third pipe, is fixedly connected with the outer side of the seventh pipe, one end of the seventh pipe, which is far away from the first adsorption tower, is fixedly connected with the bottom of the second adsorption tower, a sixth valve is fixedly arranged on the outer side of the seventh pipe and on both sides of the fifth pipe, an eighth pipe is fixedly connected with the bottom of the first adsorption tower and on one side of the seventh pipe, one end of the sixth pipe, which is far away from the fifth pipe, is fixedly connected with the outer side of the eighth pipe, a fifth temperature controller is fixedly arranged on the outer side of the sixth pipe and between the fourth pipe and the eighth pipe, one end of the eighth pipe, which is far away from the first adsorption tower, is fixedly connected with the bottom of the second adsorption tower, and seven valves are fixedly mounted on the outer side of the eighth pipe and on two sides of the sixth pipe.

As an optimized scheme of the utility model, the outside of first adsorption tower and second adsorption tower all is provided with the manometer.

As an optimized proposal of the utility model, the outside of the first adsorption tower and the second adsorption tower is provided with a standby heating box.

The utility model discloses the beneficial effect who reaches is: the utility model discloses compact structure, easy operation is convenient, and the practicality is strong, sets up six temperature control structures through the inside at zero gas consumption compression heat drying machine for equipment is when using, and adaptable 10% -100% load change can guarantee simultaneously that the tolerance reduces or when stopping using gas, can not influence the regeneration effect of equipment.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic view of the overall structure of the present invention.

In the figure: 1. a first adsorption tower; 2. a second adsorption column; 3. a first pipe; 4. a second pipe; 5. an exhaust pipe; 6. a first valve; 7. a first temperature controller; 8. a second temperature controller; 9. a third pipe; 10. a second valve; 11. a third temperature controller; 12. a fourth tube; 13. a fifth pipe; 14. a third valve; 15. an auxiliary cooler; 16. a valve number eight; 17. a valve number four; 18. a main cooler; 19. a sixth pipe; 20. a valve No. five; 21. a separator; 22. a seventh pipe; 23. a fourth temperature controller; 24. a number six valve; 25. a eighth pipe; 26. a fifth temperature controller; 27. a valve No. seven; 28. and a sixth temperature controller.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Examples

As shown in fig. 1, the utility model provides a zero gas consumption compression heat drying machine's temperature control structure, including first adsorption tower 1 and second adsorption tower 2, No. 3 pipe of top fixedly connected with of first adsorption tower 1, No. 3 one end of keeping away from first adsorption tower 1 and the top fixed connection of second adsorption tower 2 of pipe, No. 4 pipe of one side fixedly connected with of first adsorption tower 1 and No. 3 pipe of being located at the top of first adsorption tower, No. 4 pipe of one end of keeping away from first adsorption tower 1 and the top fixed connection of second adsorption tower 2, No. 3 valve 6 of outside fixed mounting of pipe, No. 4 valve 10 of outside fixed mounting of No. two pipe, through No. 3 pipe and No. 4 pipe, with the top intercommunication of first adsorption tower 1 and second adsorption tower 2, be convenient for better carry out the exhaust operation.

Further, the outside of a tub 3 and be located fixedly connected with blast pipe 5 between two valves 6, the outside fixed mounting of blast pipe 5 has temperature controller 7 No. one, blast pipe 5 keeps away from the one end fixed mounting of a tub 3 has temperature controller 8 No. two, the outside of No. two tub 4 and be located fixed mounting between two valves 10 has temperature controller 11 No. three, through temperature controller 7, be convenient for better carry out real time monitoring to dew point temperature, through temperature controller 8 No. two, be convenient for better carry out real time monitoring to outlet temperature, through temperature controller 11 No. three, be convenient for better carry out real time monitoring to blowing cold tail gas temperature.

Further, No. two outside of tub 4 and be located No. three No. 9 of one side fixedly connected with of No. three temperature controller 11, No. three outside of tub 9 is close to No. two one end fixedly connected with No. four tubings 12 of tub 4, No. three outside of tub 9 and be located No. four one side fixed mounting of tub 12 have No. three valves 14, No. three outside of tub 9 is kept away from No. two one end fixed mounting of tub 4 and is had No. six temperature controller 28, No. three outside of tub 9 and be located No. three valves 14 and No. six temperature controller 28 between fixedly connected with No. five tubings 13, through No. six temperature controller 28, be convenient for better carry out real time monitoring to the entry temperature.

Further, an auxiliary cooler 15 is fixedly installed on the outer side of the fourth pipe 12, an eighth valve 16 is fixedly installed on the outer side of the fourth pipe 12 and located on one side of the auxiliary cooler 15, a fourth valve 17 is fixedly connected to the outer side of the fifth pipe 13 and located on one side of the fourth valve 17, a sixth pipe 19 is fixedly connected to the outer side of the fifth pipe 13 and located on one side of the sixth pipe 19, a main cooler 18 is fixedly installed on the outer side of the fifth pipe 13 and located on one side of the sixth pipe 19, a separator 21 is fixedly installed on the outer side of the fifth pipe 13 and located on one side of the main cooler 18, and only one separator 21 is used in the whole air compressor, so that the pressure loss of the whole air compressor is greatly reduced, and the energy consumption of an air compression system is indirectly reduced; the outside of No. five pipe 13 and the one side fixed mounting that is located separator 21 have No. four temperature controller 23, and No. four pipe 12 keeps away from No. three one end of pipe 9 and No. six outside fixed connection of managing 19, and No. six outside of managing 19 just is located No. four and No. 12 and No. five fixed mounting have No. five valves 20 between managing 13, through No. four temperature controller 23, is convenient for better carry out real time monitoring to adsorption temperature.

Further, a seventh pipe 22 is fixedly connected to the bottom of the first adsorption tower 1, one end of the fifth pipe 13, which is far away from the third pipe 9, is fixedly connected to the outer side of the seventh pipe 22, one end of the seventh pipe 22, which is far away from the first adsorption tower 1, is fixedly connected to the bottom of the second adsorption tower 2, a sixth valve 24 is fixedly installed on the outer side of the seventh pipe 22 and on both sides of the fifth pipe 13, an eighth pipe 25 is fixedly connected to the bottom of the first adsorption tower 1 and on one side of the seventh pipe 22, one end of the sixth pipe 19, which is far away from the fifth pipe 13, is fixedly connected to the outer side of the eighth pipe 25, a fifth temperature controller 26 is fixedly installed on the outer side of the sixth pipe 19 and between the fourth pipe 12 and the eighth pipe 25, one end of the eighth pipe 25, which is far away from the first adsorption tower 1, is fixedly connected to the bottom of the second adsorption tower 2, and a seventh valve 27 is fixedly installed on the outer side of the eighth pipe 25 and on both sides of the sixth, through the fifth temperature controller 26, real-time monitoring on the temperature of the heated tail gas is facilitated.

Further, the outer sides of the first adsorption tower 1 and the second adsorption tower 2 are provided with pressure gauges, so that the pressure values inside the first adsorption tower 1 and the second adsorption tower 2 can be monitored in real time better, and corresponding measures can be conveniently carried out.

Further, the outside of first adsorption tower 1 and second adsorption tower 2 all is provided with reserve heating cabinet, the better reserve heating operation of carrying on of being convenient for.

Specifically, the equipment is connected through a temperature control system shown in fig. 1, then the equipment is electrically connected with an external PLC control system, the equipment can be better controlled and used, then the operation can be started, when the first adsorption tower 1 adsorbs and the second adsorption tower 2 is subjected to hot purging, the equipment is preheated (the set time is 0-999 minutes), the six-way valve 24 at the bottom of the second adsorption tower 2 and the first-way valve 6 at the top of the second adsorption tower 2 are closed firstly, the third-way valve 14, the seventh-way valve 27 and the fifth-way valve 20 at the bottom of the second adsorption tower 2 and the second-way valve 10 at the top of the second adsorption tower 2 are opened after ten seconds, the fourth-way valve 17 is closed after ten seconds, the preheating time is started, the equipment can perform fault detection on the whole operation process through the six-way temperature control system, so that the equipment can adapt to 10% -100% load change, and meanwhile, when the gas consumption can be reduced or stopped, the regeneration effect of the equipment is not influenced.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a temperature control structure of zero gas consumption compression heat drying machine, includes first adsorption tower (1) and second adsorption tower (2), its characterized in that, No. one pipe (3) of top fixedly connected with of first adsorption tower (1), the one end of first adsorption tower (1) and the top fixed connection of second adsorption tower (2) are kept away from in No. one pipe (3), the top of first adsorption tower (1) and be located No. two pipes (4) of one side fixedly connected with of No. one pipe (3), the one end of first adsorption tower (1) and the top fixed connection of second adsorption tower (2) are kept away from in No. two pipe (4), the outside fixed mounting of No. one pipe (3) has two valves (6), the outside fixed mounting of No. two pipe (4) has two valves (10).

2. The temperature control structure of the zero-gas-consumption compression thermal dryer according to claim 1, characterized in that an exhaust pipe (5) is fixedly connected between two first valves (6) and outside the first pipe (3), a first temperature controller (7) is fixedly installed outside the exhaust pipe (5), a second temperature controller (8) is fixedly installed at one end of the exhaust pipe (5) far away from the first pipe (3), and a third temperature controller (11) is fixedly installed between two second valves (10) and outside the second pipe (4).

3. The temperature control structure of zero gas consumption compression heat drying machine of claim 2, characterized in that, the outside of No. two pipe (4) and the one side fixedly connected with No. three pipe (9) that is located No. three temperature controller (11), the outside of No. three pipe (9) is close to the one end fixedly connected with No. four pipe (12) of No. two pipe (4), the outside of No. three pipe (9) and the one side fixedly mounted that is located No. four pipe (12) have No. three valve (14), the one end fixedly mounted that No. two pipe (4) was kept away from in the outside of No. three pipe (9) has No. six temperature controller (28), the outside of No. three pipe (9) and be located fixedly connected with No. five pipe (13) between No. three valve (14) and No. six temperature controller (28).

4. The temperature control structure of the zero-air-consumption compression thermal dryer according to claim 3, characterized in that an auxiliary cooler (15) is fixedly installed at the outer side of the fourth pipe (12), an eight-number valve (16) is fixedly installed at the outer side of the fourth pipe (12) and at one side of the auxiliary cooler (15), a fourth valve (17) is fixedly connected at one end of the outer side of the fifth pipe (13) close to the third pipe (9), a sixth pipe (19) is fixedly connected at the outer side of the fifth pipe (13) and at one side of the fourth valve (17), a main cooler (18) is fixedly installed at one side of the outer side of the fifth pipe (13) and at one side of the sixth pipe (19), a separator (21) is fixedly installed at one side of the outer side of the fifth pipe (13) and at one side of the separator (21), a fourth temperature controller (23) is fixedly installed at one side of the outer side of the fifth pipe (13), no. four pipe (12) keep away from the one end of No. three pipe (9) and the outside fixed connection of No. six pipe (19), the outside of No. six pipe (19) just is located fixed mounting between No. four pipe (12) and No. five pipe (13) and has No. five valve (20).

5. The temperature control structure of the zero-gas-consumption compression thermal dryer according to claim 4, wherein a seventh pipe (22) is fixedly connected to the bottom of the first adsorption tower (1), one end of the fifth pipe (13) far away from the third pipe (9) is fixedly connected to the outer side of the seventh pipe (22), one end of the seventh pipe (22) far away from the first adsorption tower (1) is fixedly connected to the bottom of the second adsorption tower (2), a sixth valve (24) is fixedly mounted on the outer side of the seventh pipe (22) and on both sides of the fifth pipe (13), an eighth pipe (25) is fixedly connected to the bottom of the first adsorption tower (1) and on one side of the seventh pipe (22), one end of the sixth pipe (19) far away from the fifth pipe (13) is fixedly connected to the outer side of the eighth pipe (25), and a fifth temperature controller (26) is fixedly mounted on the outer side of the sixth pipe (19) and between the fourth pipe (12) and the eighth pipe (25), one end of the eighth pipe (25) far away from the first adsorption tower (1) is fixedly connected with the bottom of the second adsorption tower (2), and seven valves (27) are fixedly mounted on the outer side of the eighth pipe (25) and located on two sides of the sixth pipe (19).

6. The temperature control structure of a zero gas consumption compression heat dryer according to claim 1, characterized in that the outside of the first adsorption tower (1) and the second adsorption tower (2) are provided with pressure gauges.

7. The temperature control structure of a zero gas consumption compression heat dryer according to claim 1, characterized in that the outside of the first adsorption tower (1) and the second adsorption tower (2) are provided with standby heating boxes.

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