CN212269462U - Multifunctional air conditioning device with air separation nitrogen making structure - Google Patents

Abstract

The utility model provides a multifunctional air conditioning device with an air separation nitrogen making structure, which comprises a bin top pipe, a squat silo, supporting legs, supporting foot seats, a nitrogen suction pump, a filter, a dryer, a refrigeration dryer, a cooler, an adjustable exhaust detection pipe structure, a deaerator, an air duct, an oxygen recycling collection tank structure, a three-way pipe and an air inlet antifouling adsorption core structure, wherein the bin top pipe is in threaded connection with the upper end of the squat silo; the squat silo is arranged on the upper part of the supporting foot seat through supporting legs. The air inlet fan, the frame and the air inlet cover are arranged, thereby being beneficial to increasing the air input and ensuring the nitrogen making effect; the treatment cylinder, the protective cover and the impurity removal core are arranged, so that the air inlet and impurity removal functions are favorably realized, and the cleanness of the inlet air is ensured; the nitrogen gas check valve, the connector, the blast pipe, mechanical valve, metal collapsible tube and the setting of atmospheric pressure detection table are favorable to increasing regulatory function, can exhaust and adjust to can carry out gas pressure regulation work, guarantee to adjust the convenience.

Description

Multifunctional air conditioning device with air separation nitrogen making structure

Technical Field

The utility model belongs to the technical field of nitrogen gas preparation and application apparatus, especially, relate to multi-functional air separation system nitrogen structure's gas is transferred device.

Background

Nitrogen (N2), a colorless, odorless gas, is one of the main components of air. Nitrogen is 78.08% (volume fraction) of the total amount of atmosphere and is less dense than air.

At normal atmospheric pressure, nitrogen turned colorless liquid when cooled to-195.8 deg.C, and liquid nitrogen turned snow-like solid when cooled to-209.8 deg.C. Nitrogen is often used to make preservatives. Under the conditions of high temperature and high energy, it can be used to prepare new substances useful for human beings.

At present, the air separation nitrogen making technology is mature technology, and nitrogen making operation is carried out through a nitrogen making machine.

However, the existing air conditioning device with the air separation nitrogen making structure has the problems that the removed oxygen can not be reused after being directly discharged, the air conditioning device does not have an air inlet purification function and cannot adjust the size of air flow.

Therefore, the invention discloses a multifunctional air conditioning device with an air separation nitrogen making structure, which is very necessary.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a multi-functional air separation nitrogen making structure's gas is transferred device to the gas that the device had detaching is transferred to the device of solving current air separation nitrogen making structure has the oxygen direct discharge that detaches and can't recycle, does not possess the problem of the purification performance that admits air and unable regulation air current size.

The multifunctional air conditioning device with the air separation nitrogen making structure comprises a bin top pipe, a squat silo, supporting legs, supporting foot seats, a nitrogen suction pump, a filter, a dryer, a cold dryer, a cooler, an adjustable exhaust detection pipe structure, a deaerator, an air guide pipe, an oxygen recycling collection tank structure, a three-way pipe and an air inlet antifouling adsorption core structure, wherein the bin top pipe is in threaded connection with the upper end of the squat silo; the squat silo is arranged on the upper part of the supporting foot seat through a supporting leg; the nitrogen suction pump is connected with the outlet at the upper right side of the filter through a bolt, and the outlet of the nitrogen suction pump is connected with the squat silo through a pipeline; the left inlet of the filter is connected with the right outlet of the dryer through a pipeline; the left inlet of the dryer is connected with the right outlet of the cold dryer through a pipeline; the left inlet of the cold dryer is connected with the right outlet of the cooler through a pipeline; the cooler is connected with the deaerator through an adjustable exhaust detection pipe structure; the deaerators are connected through air ducts; the gas guide pipe is connected with the oxygen recycling collection tank structure; two outlets on the right side of the three-way pipe are respectively connected with inlets of the deaerators arranged at the upper part and the lower part; the three-way pipe is connected with the air inlet antifouling adsorption core structure; the air inlet antifouling adsorption core structure comprises an air inlet fan, a rack, an air inlet cover, a treatment barrel, a protective cover and an impurity removal core, wherein the air inlet fan is connected to the middle position in the rack through a screw; the longitudinal bolt of the frame is connected to the middle position in the air inlet cover; the air inlet cover is in threaded connection with the left end of the treatment barrel; the right end of the treatment barrel is in threaded connection with a protective cover; the inside of handling a section of thick bamboo be provided with the edulcoration core to set up through the screw connection.

Preferably, the adjustable exhaust detection pipe structure comprises a nitrogen gas one-way valve, a connecting pipe head, an exhaust pipe, a mechanical valve, a metal hose and a pneumatic pressure detection meter, wherein one end of the nitrogen gas one-way valve is in threaded connection with the connecting pipe head, and the other end of the nitrogen gas one-way valve is in threaded connection with the exhaust pipe; the right end of the exhaust pipe is in threaded connection with the left end of the mechanical valve; the right end of the mechanical valve is in threaded connection with the left end of the metal hose; the air pressure detection meter is in threaded connection with an outlet at the middle position of the upper part of the exhaust pipe.

Preferably, the oxygen recycling and collecting tank structure comprises a valve-equipped pipe, an oxygen gas one-way valve, a tank cover, an oxygen storage tank, an explosion-proof sleeve and a vacuum pump, wherein one end of the valve-equipped pipe is in threaded connection with the oxygen gas one-way valve, and the other end of the valve-equipped pipe is in threaded connection with an inlet at the middle position inside the tank cover; the tank cover is in threaded connection with the left end of the oxygen storage tank; the outer wall of the oxygen storage tank is sleeved with an explosion-proof sleeve; the right end of the oxygen storage tank is connected with a vacuum pump through a bolt.

Preferably, the air inlet hood is a stainless steel hood with a cylindrical longitudinal section.

Preferably, the internal outlet of the protecting cover is in threaded connection with the left inlet of the three-way pipe.

Preferably, the impurity removal core specifically adopts an activated carbon adsorption core with a cylindrical longitudinal section.

Preferably, the connecting pipe head is in threaded connection with the right outlet of the deaerator.

Preferably, the right end of the metal hose is in threaded connection with the inlet of the left end of the cooler.

Preferably, the left end of the oxygen gas one-way valve is in threaded connection with an outlet at the middle position of the right end of the gas guide pipe.

Preferably, the oxygen storage tank is communicated with the vacuum pump.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses in, the fan that admits air, the setting of frame and air inlet cover is favorable to increasing the air input, guarantees the nitrogen making effect.

2. The utility model discloses in, a processing section of thick bamboo, the setting of protective cover and edulcoration core is favorable to playing and admits air and strains miscellaneous function to guarantee to admit air totally.

3. The utility model discloses in, nitrogen gas check valve, connector tube head, blast pipe, mechanical valve, metal collapsible tube and atmospheric pressure examine the setting of table, be favorable to increasing regulatory function, can exhaust and adjust to can carry out gas pressure and adjust work, guarantee to adjust the convenience.

4. The utility model discloses in, take valve calandria, the gaseous check valve of oxygen, the cover, the setting of oxygen storage tank and vacuum pump is favorable to increasing oxygen and stores the function, is convenient for recycle, increases service function.

5. The utility model discloses in, the setting of explosion-proof cover, be favorable to playing the explosion-proof effect.

6. The utility model discloses in, the setting of supporting leg and supporting foot seat, be favorable to playing good support stability.

7. The utility model discloses in, the setting of filter and desicator, be favorable to filtering the drying to the nitrogen gas of making, guarantee nitrogen gas purity.

8. The utility model discloses in, the setting in storehouse top tube and squat circle storehouse be favorable to storing nitrogen gas, be convenient for use.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the air-intake anti-fouling adsorption core structure of the present invention.

Fig. 3 is a schematic structural diagram of the adjustable exhaust detection tube structure of the present invention.

Fig. 4 is a schematic structural view of the structure of the oxygen recycling collection tank of the present invention.

In the figure:

1. a bin jacking pipe; 2. a squat silo; 3. supporting legs; 4. a supporting foot seat; 5. a nitrogen suction pump; 6. a filter; 7. a dryer; 8. a cold dryer; 9. a cooler; 10. an adjustable exhaust detection tube structure; 101. a nitrogen gas check valve; 102. connecting the pipe heads; 103. an exhaust pipe; 104. a mechanical valve; 105. a metal hose; 106. an air pressure detection meter; 11. a deaerator; 12. an air duct; 13. an oxygen recycling collection tank structure; 131. a calandria with valve; 132. an oxygen gas check valve; 133. a can lid; 134. an oxygen storage tank; 135. an explosion-proof sleeve; 136. a vacuum pump; 14. a three-way pipe; 15. an air intake antifouling adsorption core structure; 151. an air inlet fan; 152. a frame; 153. an air intake hood; 154. a treatment cylinder; 155. a protective cover; 156. and removing the core.

Detailed Description

The utility model is described in detail with reference to the accompanying drawings, as shown in fig. 1 and fig. 2, the multifunctional air conditioning device with air separation nitrogen making structure comprises a bin top pipe 1, a squat silo 2, supporting legs 3, supporting foot seats 4, a nitrogen absorbing pump 5, a filter 6, a dryer 7, a refrigeration dryer 8, a cooler 9, an adjustable exhaust detection pipe structure 10, a deaerator 11, an air duct 12, an oxygen recycling collection tank structure 13, a three-way pipe 14 and an air inlet antifouling adsorption core structure 15, wherein the bin top pipe 1 is in threaded connection with the upper end of the squat silo 2; the squat silo 2 is arranged on the upper part of a supporting foot seat 4 through a supporting leg 3; the nitrogen suction pump 5 is connected with the outlet at the upper right side of the filter 6 through a bolt, and the outlet of the nitrogen suction pump 5 is connected with the squat silo 2 through a pipeline; the left inlet of the filter 6 is connected with the right outlet of the dryer 7 through a pipeline; the left inlet of the dryer 7 is connected with the right outlet of the cold dryer 8 through a pipeline; the left inlet of the cold dryer 8 is connected with the right outlet of the cooler 9 through a pipeline; the cooler 9 is connected with a deaerator 11 through an adjustable exhaust gas detection pipe structure 10; the deaerators 11 are connected through air ducts 12; the gas guide pipe 12 is connected with an oxygen recycling and collecting tank structure 13; two outlets on the right side of the three-way pipe 14 are respectively connected with inlets of the deaerators 11 arranged at the upper part and the lower part; the three-way pipe 14 is connected with the air inlet antifouling adsorption core structure 15; the air intake antifouling adsorption core structure 15 comprises an air intake fan 151, a rack 152, an air intake cover 153, a treatment barrel 154, a protective cover 155 and an impurity removal core 156, wherein the air intake fan 151 is in screwed connection with the middle position in the rack 152; the frame 152 is connected to the middle position inside the air inlet cover 153 by a longitudinal screw; the air inlet cover 153 is in threaded connection with the left end of the treatment barrel 154; the right end of the treatment barrel 154 is in threaded connection with a protective cover 155; the inside of handling a section of thick bamboo 154 be provided with edulcoration core 156 to set up through the screw connection, in order to guarantee the nitrogen making effect, can filter admitting air, through the inside action of fan 151 in frame 152 that admits air, can make the air input increase, make gaseous through admitting air cover 153 inside, and adsorb impurity through the inside edulcoration core 156 of handling a section of thick bamboo 154, in order to guarantee the air input and admit air the cleanness, guarantee the nitrogen making effect.

In this embodiment, referring to fig. 3, the adjustable exhaust gas detection tube structure 10 includes a nitrogen gas check valve 101, a connector 102, an exhaust pipe 103, a mechanical valve 104, a metal hose 105, and a pneumatic pressure detection meter 106, wherein one end of the nitrogen gas check valve 101 is connected to the connector 102 by a screw thread, and the other end is connected to the exhaust pipe 103 by a screw thread; the right end of the exhaust pipe 103 is in threaded connection with the left end of the mechanical valve 104; the right end of the mechanical valve 104 is in threaded connection with the left end of the metal hose 105; atmospheric pressure detect table 106 threaded connection in the upper portion intermediate position exit of blast pipe 103, can carry out the folk prescription through nitrogen gas check valve 101 and give vent to anger, avoid the return air to through mechanical valve 104 control displacement, can detect atmospheric pressure size through atmospheric pressure detect table 106, in order to guarantee the exhaust effect, draw out nitrogen gas through metal collapsible tube 105, in order to carry out dehumidification, drying, filtration, guarantee the nitrogen making effect.

In this embodiment, referring to fig. 4, the oxygen recycling collection tank structure 13 includes a tube-with-valve 131, an oxygen gas check valve 132, a tank cover 133, an oxygen storage tank 134, an explosion-proof sleeve 135 and a vacuum pump 136, wherein one end of the tube-with-valve 131 is connected to the oxygen gas check valve 132 by a screw thread, and the other end is connected to an inlet at an intermediate position inside the tank cover 133 by a screw thread; the tank cover 133 is in threaded connection with the left end of the oxygen storage tank 134; an explosion-proof sleeve 135 is sleeved on the outer wall of the oxygen storage tank 134; oxygen storage tank 134's right-hand member bolted connection have vacuum pump 136, oxygen through oxygen-eliminating device 11 detach, the gaseous check valve 132 of accessible oxygen is derived, and through opening the valve of taking valve calandria 131, introduce oxygen inside oxygen storage tank 134, can collect the operation, and can draw forth through vacuum pump 136 and recycle, increase oxygen service function, and guarantee to store the effect, accessible vacuum pump 136 evacuation, and then guarantee oxygen storage tank 134's storage effect.

In this embodiment, specifically, the air inlet cover 153 specifically adopts a stainless steel cover with a cylindrical longitudinal section.

In this embodiment, specifically, the internal outlet of the protecting cover 155 is connected to the left inlet of the three-way pipe 14 by a screw thread.

In this embodiment, specifically, the impurity removing core 156 specifically adopts an activated carbon adsorption core with a cylindrical longitudinal section.

In this embodiment, specifically, the connecting pipe head 102 is screwed at the right outlet of the deaerator 11.

In this embodiment, specifically, the right end of the metal hose 105 is screwed to the inlet of the left end of the cooler 9.

In this embodiment, specifically, the left end of the oxygen gas one-way valve 132 is screwed to the outlet at the middle position of the right end of the gas guiding tube 12.

In this embodiment, specifically, the explosion-proof sleeve 135 is a stainless steel sleeve.

In this embodiment, specifically, the oxygen storage tank 134 and the vacuum pump 136 are connected to each other.

In this embodiment, specifically, the nitrogen gas check valve 101 and the oxygen gas check valve 132 both adopt gas check valves, and arrows are set to have a gas inlet on the left side and a gas outlet on the right side.

In this embodiment, specifically, the nitrogen suction pump 5 specifically employs a 555 type booster pump, and the air supply fan 151 specifically employs a TG-6 type air supply fan.

Principle of operation

In the utility model, in order to ensure the nitrogen-making effect, the inlet air can be filtered, the inlet air fan 151 is operated in the frame 152 to increase the air input, so that the air passes through the inside of the air inlet cover 153, and the impurity removing core 156 in the processing cylinder 154 can adsorb impurities, so as to ensure the air input and the air inlet cleanness, and ensure the nitrogen-making effect, the unidirectional air outlet can be performed through the nitrogen gas check valve 101, the air return is avoided, the air displacement is controlled through the mechanical valve 104, the air pressure can be detected through the air pressure detection meter 106, so as to ensure the air exhaust effect, the nitrogen gas is led out through the metal hose 105, so as to be dehumidified, dried and filtered, the nitrogen-making effect is ensured, the oxygen removed through the deaerator 11 can be led out through the oxygen gas check valve 132, and the valve with the valve calandria 131 is opened, the oxygen gas is led into the oxygen storage tank 134, can collect the operation to can draw forth through vacuum pump 136 and recycle, increase oxygen service function, and guarantee to store the effect, accessible vacuum pump 136 evacuation, and then guarantee the storage effect of oxygen storage tank 134.

Utilize technical scheme, or technical personnel in the field are in the utility model discloses under technical scheme's the inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.

Claims (10)

1. The multifunctional air conditioning device of the air separation nitrogen making structure is characterized by comprising a bin top pipe (1), a squat silo (2), supporting legs (3), supporting foot seats (4), a nitrogen suction pump (5), a filter (6), a dryer (7), a refrigeration dryer (8), a cooler (9), an adjustable exhaust detection pipe structure (10), a deaerator (11), an air guide pipe (12), an oxygen recycling collection tank structure (13), a three-way pipe (14) and an air inlet antifouling adsorption core structure (15), wherein the bin top pipe (1) is in threaded connection with the upper end of the squat silo (2); the squat silo (2) is arranged on the upper part of the supporting foot seat (4) through the supporting leg (3); the nitrogen suction pump (5) is connected with the outlet of the upper right side of the filter (6) through a bolt, and the outlet of the nitrogen suction pump (5) is connected with the squat silo (2) through a pipeline; the left inlet of the filter (6) is connected with the right outlet of the dryer (7) through a pipeline; the left inlet of the dryer (7) is connected with the right outlet of the cold dryer (8) through a pipeline; the left inlet of the cold dryer (8) is connected with the right outlet of the cooler (9) through a pipeline; the cooler (9) is connected with the deaerator (11) through an adjustable exhaust detection pipe structure (10); the deaerators (11) are connected through air ducts (12); the gas guide pipe (12) is connected with an oxygen recycling and collecting tank structure (13); two outlets on the right side of the three-way pipe (14) are respectively connected with inlets of the deaerators (11) arranged at the upper part and the lower part; the three-way pipe (14) is connected with the air inlet antifouling adsorption core structure (15); the air inlet antifouling adsorption core structure (15) comprises an air inlet fan (151), a rack (152), an air inlet cover (153), a treatment barrel (154), a protective cover (155) and an impurity removal core (156), wherein the air inlet fan (151) is in screwed connection with the middle position in the rack (152); the longitudinal bolt of the frame (152) is connected to the middle position in the air inlet cover (153); the air inlet cover (153) is in threaded connection with the left end of the treatment barrel (154); the right end of the treatment barrel (154) is in threaded connection with a protective cover (155); the inside of handling section of thick bamboo (154) be provided with edulcoration core (156) to set up through screw connection.

2. The multi-functional modified atmosphere device with air separation nitrogen making structure of claim 1, wherein the adjustable exhaust detection tube structure (10) comprises a nitrogen gas check valve (101), a connector head (102), an exhaust tube (103), a mechanical valve (104), a metal hose (105) and a pressure detection meter (106), one end of the nitrogen gas check valve (101) is connected with the connector head (102) in a threaded manner, and the other end is connected with the exhaust tube (103) in a threaded manner; the right end of the exhaust pipe (103) is in threaded connection with the left end of the mechanical valve (104); the right end of the mechanical valve (104) is in threaded connection with the left end of the metal hose (105); the air pressure detection meter (106) is in threaded connection with an outlet at the middle position of the upper part of the exhaust pipe (103).

3. The modified atmosphere device of the multifunctional air separation and nitrogen production structure as claimed in claim 1, wherein the oxygen recycling collection tank structure (13) comprises a valved pipe (131), an oxygen gas check valve (132), a tank cover (133), an oxygen storage tank (134), an explosion-proof sleeve (135) and a vacuum pump (136), one end of the valved pipe (131) is connected with the oxygen gas check valve (132) in a threaded manner, and the other end of the valved pipe is connected with an inlet at the middle position inside the tank cover (133) in a threaded manner; the tank cover (133) is in threaded connection with the left end of the oxygen storage tank (134); an explosion-proof sleeve (135) is sleeved on the outer wall of the oxygen storage tank (134); the right end of the oxygen storage tank (134) is connected with a vacuum pump (136) through a bolt.

4. The multi-functional modified atmosphere device of air separation nitrogen making structure of claim 1, wherein the air inlet hood (153) is a stainless steel hood with a cylindrical longitudinal section.

5. The multi-functional modified atmosphere device for the nitrogen production by air separation as claimed in claim 1, wherein the inner outlet of the protecting cover (155) is screwed with the left inlet of the tee (14).

6. The multi-functional modified atmosphere device with a nitrogen generating structure by air separation as claimed in claim 1, wherein the impurity removing core (156) is an activated carbon adsorption core with a cylindrical longitudinal section.

7. The multi-functional modified atmosphere device for the air separation nitrogen production structure of claim 2, wherein the connecting pipe head (102) is screwed at the right outlet of the oxygen remover (11).

8. The multi-functional modified atmosphere device for the air separation and nitrogen generation structure as claimed in claim 2, wherein the right end of the metal hose (105) is screwed at the inlet of the left end of the cooler (9).

9. The multi-functional modified atmosphere device of air separation nitrogen making structure of claim 3, wherein the left end of the oxygen gas one-way valve (132) is screwed with the outlet at the middle position of the right end of the gas guide tube (12).

10. The multi-functional modified atmosphere device of an air separation nitrogen making structure as claimed in claim 3, wherein the oxygen storage tank (134) and the vacuum pump (136) are connected in communication.

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