CN220677334U - Zero gas consumption blowing heating regeneration adsorption dryer - Google Patents

Abstract

The utility model discloses a zero-air-consumption blowing, heating and regenerating adsorption dryer which comprises a protective shell, wherein an operation panel is arranged on one side of the outer wall of the protective shell, a dust cover is arranged on the other side wall of the outer wall of the protective shell, an adsorption platform is arranged on one side wall of the dust cover, an adsorption net is arranged on one side wall of the adsorption platform, a wet air inlet is arranged above the dust cover, and an air inlet valve is arranged on one side of the wet air inlet. The beneficial effects are that: according to the utility model, the dust cover is arranged to isolate large dirt, and the adsorption net adsorbs small dirt and greasy dirt attached to the air, so that the adsorption tank is prevented from being polluted, and the adsorption net is cleaned by using the suction adsorption platform, so that the adsorption net can be reused.

Description

Zero gas consumption blowing heating regeneration adsorption dryer

Technical Field

The utility model relates to the technical field of pneumatic systems, in particular to a zero-air-consumption blowing, heating and regenerating adsorption dryer.

Background

The adsorption drier with zero air consumption and blast heating regeneration is one kind of energy saving compressed air drier, and the air regenerating process with environment air is used to save great amount of product gas for regeneration.

The existing zero-air-consumption blowing-heating regeneration adsorption dryer can utilize an air blower and a heater to heat ambient air to a regeneration temperature to adsorb the ambient air for heating and analyzing, but because the air environment in a factory is worse, dust and foreign scraps attached to the air are more, an adsorption tank is easy to pollute to influence the adsorption effect, and meanwhile, the existing zero-air-consumption blowing-heating regeneration adsorption dryer generally uses the same air outlet pipeline with the regenerated air, so that water vapor carried by the regenerated air is easy to adhere in the pipeline, and the quality of the air outlet of the dried air is influenced.

Disclosure of Invention

First, the technical problem to be solved

The utility model aims to solve the technical problem of providing a zero-air-consumption blowing heating regeneration adsorption dryer which can dispel insects and can warn a destructor when the insect is destroyed.

(II) technical scheme

The utility model is realized by the following technical scheme: the utility model provides a zero-air-consumption blowing heating regeneration adsorption dryer which comprises a protective shell, wherein an operation panel is arranged on one side of the outer wall of the protective shell, a dust cover is arranged on the other side wall of the outer wall of the protective shell, an adsorption platform is arranged on one side wall of the dust cover, an adsorption net is arranged on one side wall of the adsorption platform, a wet air inlet is arranged above the dust cover, an air inlet valve is arranged on one side of the wet air inlet, an air blower is arranged in the inner side wall of the protective shell opposite to the dust cover, an air valve is arranged at the air outlet end of the air blower, a heater is arranged at the tail end of an air outlet pipeline of the air blower, a hot air valve is arranged at the air outlet end of the heater, an adsorption tank is arranged at the tail end of the air outlet pipeline of the heater, a fixing frame is arranged on the outer wall of the adsorption tank, a dry air outlet is arranged at the tail end of the air outlet pipeline of the adsorption tank, an air outlet valve is arranged on one side of the dry air outlet, a regeneration air outlet is arranged on one side of the drying air outlet, and a regeneration air valve is arranged on one side of the regeneration air outlet.

Further, the protective housing is in bolted connection with the operation panel, and the protective housing is in bolted connection with the dust cover.

Through adopting above-mentioned technical scheme, make operating panel can operate the device, utilize simultaneously the dust cover is the large-scale debris dust of air-blower filtration.

Further, the dust cover is inserted into the adsorption platform, and the adsorption platform is connected with the adsorption net through bolts.

Through adopting above-mentioned technical scheme, make adsorption platform can follow extract on the dust cover, be convenient for to adsorb the net washs.

Further, the protective housing is in bolted connection with the wet air inlet, the air inlet valve is in bolted connection with the wet air inlet, and the wet air inlet air outlet pipeline is in bolted connection with the air inlet pipeline of the adsorption tank.

Through adopting above-mentioned technical scheme, make the humid air that waits to dry accessible humid air inlet get into adsorb in the jar and dry, utilize the intake valve control humid air flow.

Further, it is characterized in that: the air blower is connected with the protective shell through bolts, and the air valve is connected with the air outlet pipeline of the air blower through bolts.

By adopting the technical scheme, the air blower can directly pump the ambient air into the heater, and the air valve is used for controlling the air flow.

Further, the air outlet pipeline of the blower is connected with the air inlet pipeline of the heater through bolts, and the hot gas valve is connected with the air outlet pipeline of the heater through bolts.

By adopting the technical scheme, the heater can heat air into regeneration gas, and the flow of the regeneration gas is controlled through the hot gas valve.

Further, the adsorption tank air outlet pipeline is connected with the dry air outlet through bolts, and the air outlet valve is connected with the dry air outlet through bolts.

By adopting the technical scheme, the adsorption tank can discharge the wet air after adsorption drying through the dry air outlet, and the air outlet valve is used for controlling the dry air flow.

Further, the adsorption tank air outlet pipeline is connected with the regeneration gas outlet through bolts, and the regeneration gas valve is connected with the regeneration gas outlet through bolts.

By adopting the technical scheme, the regeneration gas carrying water vapor is discharged by utilizing the regeneration gas outlet, and the control flow of the regeneration gas valve is controlled.

(III) beneficial effects

Compared with the prior art, the utility model has the following beneficial effects:

1. in order to solve the problems that the existing zero-air-consumption blowing heating regeneration adsorption dryer can utilize a blower and a heater to heat ambient air to a regeneration temperature to adsorb the ambient air for heating and resolving, but because the air environment in a factory is poor, dust and sundry dust attached to the air are more, and an adsorption tank is easy to pollute and influence the adsorption effect, the utility model isolates large dirt by arranging a dust cover, simultaneously the adsorption net adsorbs small dirt and greasy dirt attached to the air, so that the adsorption tank is prevented from being polluted, and an extraction adsorption platform is utilized to clean the adsorption net, so that the adsorption net is reused;

2. in order to solve the problems that the existing zero-air-consumption blowing heating regeneration adsorption type dryer generally uses the same air outlet pipeline with regeneration air, so that water vapor carried by the regeneration air is easy to adhere in the pipeline to influence the quality of the air outlet of the dry air, the air outlet valve is closed in the regeneration operation of an adsorption tank through arranging the dry air outlet and the regeneration air outlet, so that the regeneration air carrying the water vapor is discharged through the regeneration air outlet, the diversion of the regeneration air and the dry air is realized, and the water vapor is prevented from adhering at the dry air outlet to influence the quality of the dry air.

Drawings

FIG. 1 is a schematic diagram of a zero-air-consumption blowing heating regeneration adsorption dryer;

fig. 2 is a front cross-sectional view of a zero-air-consumption blowing heating regeneration adsorption dryer according to the present utility model.

The reference numerals are explained as follows:

1. a protective housing; 2. an operation panel; 3. a dust cover; 4. an adsorption platform; 5. an adsorption net; 6. a wet air inlet; 7. an air inlet valve; 8. a blower; 9. an air valve; 10. a heater; 11. a hot gas valve; 12. an adsorption tank; 13. a fixing frame; 14. a dry air outlet; 15. an air outlet valve; 16. a regeneration gas outlet; 17. a regeneration gas valve.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

As shown in fig. 1-2, a zero-air-consumption blowing heating regeneration adsorption dryer in this embodiment includes a protective housing 1, an operation panel 2 is installed on one side of the outer wall of the protective housing 1 for operating an apparatus, a dust cover 3 is installed on the other side of the outer wall of the protective housing 1 for isolating large dirt, an adsorption platform 4 is installed on one side wall of the dust cover 3 for fixing an adsorption net 5, the adsorption net 5 is installed on one side wall of the adsorption platform 4, small-sized dust is adsorbed, a wet air inlet 6 is provided above the dust cover 3 for allowing the wet air to enter, an air inlet valve 7 is installed on one side of the wet air inlet 6 for controlling the flow rate of the wet air, a blower 8 is installed on one side of the inner side of the protective housing 1 opposite to the dust cover 3 for sucking the ambient air, an air valve 9 is installed on the air outlet end of the blower 8 for controlling the flow rate of the ambient air, a heater 10 is installed on the air outlet pipeline end of the blower 8 for heating the ambient air, a hot air valve 11 is installed on the air outlet end of the heater 10 for controlling the hot air flow rate, an adsorption tank 12 is installed on the air outlet pipeline end for fixing the wet air, a fixing frame 13 is installed on one side of the adsorption tank 12, a wet air is installed on the outer wall of the adsorption tank 12, a wet air inlet 14 is installed on the air outlet valve 12 for controlling the air outlet 14, a dry air outlet 16 is installed on one side of the dry air outlet valve for controlling the dry air outlet 16, and a regeneration air outlet is installed on one side of the dry air outlet valve is installed on the air outlet side of the dry air outlet valve for controlling the air outlet 16.

As shown in fig. 1-2, in this embodiment, a protective housing 1 is bolted to an operation panel 2 for operation of the device, the protective housing 1 is bolted to a dust cover 3 for filtering large scale dirt, the dust cover 3 is plugged to an adsorption platform 4, the adsorption platform 4 is pulled out, the adsorption platform 4 is bolted to an adsorption net 5 for adsorbing small scale dust, the protective housing 1 is bolted to a wet air inlet 6 for entering wet air, an air inlet valve 7 is bolted to the wet air inlet 6 for controlling the flow rate of the wet air 6, an air outlet pipe of the wet air inlet 6 is bolted to an air inlet pipe of an adsorption tank 12 for allowing the wet air to enter the adsorption tank 12 for adsorption drying, a blower 8 is bolted to the protective housing 1 for sucking in ambient air, an air valve 9 is bolted to an air outlet pipe of the blower 8 for controlling the ambient air flow rate, an air outlet pipe of the heater 8 is bolted to an air inlet pipe of the heater 10 for heating the ambient air into regeneration gas, a hot air valve 11 is bolted to an air outlet pipe of the heater 10 for controlling the flow rate of the regeneration gas, an air outlet pipe of the adsorption tank 12 is bolted to a dry air outlet 14 for discharging the dry air, an air outlet valve 15 is bolted to the wet air inlet 6 for controlling the flow rate of the wet air, an air outlet 6 is bolted to an air outlet pipe of the dry air outlet 12 is connected to the dry air outlet 12 for controlling the air outlet 16, and an air outlet is bolted to the air outlet 16 is connected to the air outlet for regenerating air outlet for the regeneration valve for controlling the regeneration gas.

The specific implementation process of this embodiment is as follows: when wet air drying is carried out, the air valve 9 and the regeneration gas valve 17 are closed, wet air enters the adsorption tank 12 through the wet air inlet 6 for adsorption drying, dry air is discharged through the dry air outlet 14, when the regeneration operation of the adsorption tank 12 is carried out, the air inlet valve 7 and the air outlet valve 15 are closed, ambient air is pumped in through the air blower 8, the ambient air is filtered through the dust cover 3 and the adsorption net 5, then the ambient air is heated to the regeneration temperature through the heater 10, then the regeneration air enters the adsorption tank 12 for regeneration of the adsorption tank 12, and the regeneration gas carrying water vapor is discharged through the regeneration gas outlet 16 after the regeneration operation is finished.

The above examples are merely illustrative of the preferred embodiments of the present utility model and are not intended to limit the spirit and scope of the present utility model. Various modifications and improvements of the technical scheme of the present utility model will fall within the protection scope of the present utility model without departing from the design concept of the present utility model, and the technical content of the present utility model is fully described in the claims.

Claims (8)

1. A zero gas consumption blast heating regeneration adsorption dryer is characterized in that: including shell (1), operating panel (2) are installed to shell (1) outer wall one side, dust cover (3) are installed to shell (1) outer another lateral wall, adsorption platform (4) are installed to dust cover (3) lateral wall, adsorption net (5) are installed on adsorption platform (4) lateral wall, dust cover (3) top is provided with wet air inlet (6), air inlet valve (7) are installed to wet air inlet (6) one side, air-blower (8) are installed to shell (1) inner lateral wall just to dust cover (3), air-blower (9) are installed to air-blower (8) end of giving vent to anger, heater (10) are installed to air-blower (8) end of giving vent to anger pipeline, hot gas valve (11) are installed to heater (10) end of giving vent to anger pipeline, adsorption tank (12) outer wall is installed mount (13), adsorption tank (12) end of giving vent to anger pipeline is provided with dry air outlet (14), dry air outlet (14) are installed to one side of air outlet (14) is provided with regeneration air outlet (16), a regeneration gas valve (17) is arranged at one side of the regeneration gas outlet (16).

2. The zero-air-consumption blast heating regeneration adsorption dryer according to claim 1, wherein: the protection shell (1) is connected with the operation panel (2) through bolts, and the protection shell (1) is connected with the dust cover (3) through bolts.

3. The zero-air-consumption blast heating regeneration adsorption dryer according to claim 1, wherein: the dust cover (3) is inserted into the adsorption platform (4), and the adsorption platform (4) is connected with the adsorption net (5) through bolts.

4. The zero-air-consumption blast heating regeneration adsorption dryer according to claim 1, wherein: the protective shell (1) is in bolted connection with the wet air inlet (6), the air inlet valve (7) is in bolted connection with the wet air inlet (6), and an air outlet pipeline of the wet air inlet (6) is in bolted connection with an air inlet pipeline of the adsorption tank (12).

5. The zero-air-consumption blast heating regeneration adsorption dryer according to claim 1, wherein: the air blower (8) is connected with the protective shell (1) through bolts, and the air valve (9) is connected with an air outlet pipeline of the air blower (8) through bolts.

6. The zero-air-consumption blast heating regeneration adsorption dryer according to claim 1, wherein: the air outlet pipeline of the blower (8) is connected with the air inlet pipeline of the heater (10) through bolts, and the hot air valve (11) is connected with the air outlet pipeline of the heater (10) through bolts.

7. The zero-air-consumption blast heating regeneration adsorption dryer according to claim 1, wherein: the air outlet pipeline of the adsorption tank (12) is connected with the dry air outlet (14) through bolts, and the air outlet valve (15) is connected with the dry air outlet (14) through bolts.

8. The zero-air-consumption blast heating regeneration adsorption dryer according to claim 1, wherein: the air outlet pipeline of the adsorption tank (12) is connected with the regeneration gas outlet (16) through bolts, and the regeneration gas valve (17) is connected with the regeneration gas outlet (16) through bolts.