CN217340569U - Oxygenerator for pure oxygen super dissolving system - Google Patents

Abstract

The utility model discloses a oxygenerator for super dissolving system of pure oxygen, including system oxygen organism and tuber pipe, the air inlet roof-rack is installed at the top of system oxygen organism, and the surface of air inlet roof-rack is provided with the dryer, the humidifying bottle is installed to the front side of system oxygen organism, and the surface of humidifying bottle is provided with the oxygen port, the one end of oxygen port is connected with the blast pipe, the rose box is installed to the below of air inlet roof-rack, and the bottom of rose box is connected with the connecting tube, the lower extreme of connecting tube is provided with oil-free air compressor. This oxygenerator for super dissolving system of pure oxygen is provided with the tuber pipe, can utilize the fan with the inside of air suction system oxygen organism, the equidistance is provided with a plurality of groups tuber pipe, has increased the entry volume of air, is favorable to improving the efficiency of preparing to oxygen, the inside entering of dryer can be followed to the air, with the pull rod upwards tractive, can be so that the bottom of pull rod imbeds the inside of bayonet socket, so the upper end of tuber pipe can not be plugged up to the closing cap, let the air get into smoothly.

Description

Oxygenerator for pure oxygen super dissolving system

Technical Field

The utility model relates to an oxygenerator technical field specifically is a pure oxygen super dissolves oxygenerator for system.

Background

The oxygen generator is a machine for preparing oxygen, and is obtained by compressing air at high density by using an air separation technology, separating enterprises at a certain temperature by using different condensation points of components in the air, and further rectifying the air.

In the use process of an oxygen generator in the market, the oxygen generator cannot provide enough oxygen for a pure oxygen super-dissolving system, the oxygen preparation efficiency is insufficient, and the problem that the pure oxygen super-dissolving system cannot be used is solved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an oxygenerator for super dissolving system of pure oxygen to solve the oxygenerator on the market that proposes in the above-mentioned background and in the use, the oxygenerator can not provide sufficient oxygen for the super dissolving system of pure oxygen, and oxygen is prepared efficiently inadequately, can not satisfy the super dissolving system of pure oxygen and carry out the problem of using.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a oxygenerator for super dissolving system of pure oxygen, includes system oxygen organism and tuber pipe, the air inlet roof-rack is installed at the top of system oxygen organism, and the surface of air inlet roof-rack is provided with the dryer, the humidifying bottle is installed to the front side of system oxygen organism, and the surface of humidifying bottle is provided with the oxygen gas port, the one end of oxygen gas port is connected with the blast pipe, the rose box is installed to the below of air inlet roof-rack, and the bottom of rose box is connected with the connecting tube, the lower extreme of connecting tube is provided with does not have the oil air compressor, and does not have one side of oil air compressor and be connected with the condenser through the connecting tube, nitrogen oxygen separating mechanism is installed to one side top of condenser, and nitrogen oxygen separating mechanism's below is connected with the oxygen storage bottle.

Preferably, the inside of tuber pipe is provided with bayonet socket, pull rod, closing cap, fan and rubber circle, and the inside gomphosis of bayonet socket installs the pull rod, the closing cap is installed at the top of pull rod, the below of bayonet socket is provided with the fan, the bottom surface of pull rod is provided with the rubber circle.

Preferably, the bayonet is mutually matched with the bottom of the pull rod in size, and the air pipes are equidistantly distributed along the surface of the air inlet top frame to form a plurality of groups.

Preferably, the rose box surface is provided with air intake, drawing slot, grillage and filter screen, and the below of air intake is provided with the drawing slot, the internally mounted of drawing slot has the grillage, and the internal surface of grillage is provided with filter screen.

Preferably, constitute sliding connection between drawing groove and the grillage, and drawing groove and grillage all have a plurality of groups along the vertical direction parallel arrangement of rose box.

Preferably, nitrogen oxygen separating mechanism's inside is provided with reposition of redundant personnel bucket, shunt tubes, molecular sieve jar, location mounting bracket and screw rod, and the upper surface of reposition of redundant personnel bucket is connected with the shunt tubes, the other end of shunt tubes is connected with the molecular sieve jar, and installs the location mounting bracket in the outside of molecular sieve jar, the both ends of location mounting bracket have all alternate the screw rod.

Preferably, the axis of nitrogen oxygen separating mechanism and the axis of reposition of redundant personnel bucket coincide each other, and reposition of redundant personnel bucket passes through interconnect between shunt tubes and the molecular sieve jar.

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

1. through the setting of tuber pipe, can utilize the fan with the inside of air suction system oxygen organism, the equidistance is provided with a plurality of groups tuber pipe, the entering volume of air has been increased, be favorable to improving the efficiency of preparing to oxygen, the air can be followed the inside entering of dryer, with the pull rod tractive upwards, can be so that the bottom of pull rod imbeds the inside of bayonet socket, so the upper end of tuber pipe can not be plugged up to the closing cap, let the air get into smoothly, when not using, push down the pull rod, the bottom of pull rod breaks away from the bayonet socket downwards, at this moment the closing cap can imbed the top of settling the tuber pipe, avoid the entering of dust.

2. Through the setting of rose box, the rose box is located the below of air inlet roof-rack, can in time filter inspiratory air like this, avoids impurity in the air to influence the purity that oxygen drawed, utilizes the sliding construction between drawing groove and the grillage, conveniently demolishs the grillage and changes to be favorable to changing and wasing filter screen cloth.

3. Be provided with multiunit molecular sieve jar through the inside at nitrogen oxygen separating mechanism, can filter oxygen simultaneously, and carry out the nitrogen oxygen separation, with the high purity of guaranteeing oxygen, greatly increased the efficiency of preparing to oxygen, thereby satisfy the super dissolving system of pure oxygen and use better, the setting of reposition of redundant personnel bucket can concentrate the air after the high density compression, utilize the shunt tubes to distribute the air simultaneously, let the air evenly get into in the molecular sieve jar regularly and filter and oxygen and prepare.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the internal structure of the air duct of the present invention;

FIG. 3 is a schematic view of the internal structure of the oxygen generator body of the present invention;

FIG. 4 is a schematic view of the internal structure of the filtering box of the present invention;

fig. 5 is a schematic view of the internal structure of the nitrogen-oxygen separation mechanism of the present invention.

In the figure: 1. an oxygen generator body; 2. an air inlet top frame; 3. an air duct; 301. a bayonet; 302. a pull rod; 303. Sealing the cover; 304. a fan; 305. a rubber ring; 4. a humidification bottle; 5. an oxygen port; 6. an exhaust pipe; 7. A filter box; 701. an air inlet; 702. drawing the groove; 703. a plate frame; 704. filtering the screen; 8. connecting a pipeline; 9. an oil-free air compressor; 10. a condenser; 11. a nitrogen-oxygen separation mechanism; 1101. a shunt barrel; 1102. a shunt tube; 1103. a molecular sieve tank; 1104. positioning the mounting frame; 1105. a screw; 12. an oxygen storage bottle.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: an oxygen generator for a pure oxygen super-dissolution system comprises an oxygen generator body 1 and an air pipe 3, wherein an air inlet top frame 2 is installed at the top of the oxygen generator body 1, an air cylinder is arranged on the surface of the air inlet top frame 2, a humidifying bottle 4 is installed on the front side of the oxygen generator body 1, an oxygen port 5 is arranged on the surface of the humidifying bottle 4, one end of the oxygen port 5 is connected with an exhaust pipe 6, a filter box 7 is installed below the air inlet top frame 2, a connecting pipeline 8 is connected to the bottom of the filter box 7, an oil-free air compressor 9 is arranged at the lower end of the connecting pipeline 8, a condenser 10 is connected to one side of the oil-free air compressor 9 through the connecting pipeline 8, a nitrogen-oxygen separation mechanism 11 is installed above one side of the condenser 10, an oxygen storage bottle 12 is connected below the nitrogen-oxygen separation mechanism 11, the filter box 7, the oil-free air compressor 9, the condenser 10, the nitrogen-oxygen separation mechanism 11 and the oxygen storage bottle 12 are connected together through the connecting pipeline 8, let connecting tube 8 play the effect of connecting the transport, in addition, be provided with multiunit oxygen gas mouth 5 on humidifying bottle 4, be favorable to connecting multiunit blast pipe 6 like this, increase the output and the output speed of oxygen to in order to provide sufficient oxygen for the super dissolving system of pure oxygen.

The utility model discloses in, the inside of tuber pipe 3 is provided with bayonet socket 301, pull rod 302, closing cap 303, fan 304 and rubber circle 305, and bayonet socket 301's inside gomphosis installs pull rod 302, closing cap 303 is installed at the top of pull rod 302, the below of bayonet socket 301 is provided with fan 304, the bottom surface of pull rod 302 is provided with rubber circle 305, setting through tuber pipe 3, can utilize fan 304 to inhale the inside of making oxygen organism 1 with the air, the equidistance is provided with a plurality of groups tuber pipe 3, the entering volume of air has been increased, be favorable to improving the efficiency of preparing oxygen.

The utility model discloses in, size is mutually supported between the bottom of bayonet socket 301 and pull rod 302, and the surface equidistance distribution of tuber pipe 3 along air inlet roof-rack 2 has a plurality of groups, the inside entering of dryer can be followed to the air, with the pull rod 302 tractive that makes progress, can make the bottom of pull rod 302 imbed the inside of bayonet socket 301, so the upper end of tuber pipe 3 can not be plugged up to closing cap 303, let the air get into smoothly, when not using, push down pull rod 302, the bottom of pull rod 302 breaks away from bayonet socket 301 downwards, at this moment closing cap 303 can imbed and settle the top of having tuber pipe 3, avoid the entering of dust.

The utility model discloses in, the filter box 7 surface is provided with air intake 701, drawing slot 702, grillage 703 and filter screen 704, and the below of air intake 701 is provided with drawing slot 702, and the internally mounted of drawing slot 702 has grillage 703, and the internal surface of grillage 703 is provided with filter screen 704, and through the setting of filter box 7, filter box 7 is located the below of air inlet roof-rack 2, can in time filter inspiratory air like this, avoids the impurity in the air to influence the purity that oxygen drawed.

The utility model discloses in, constitute sliding connection between drawing groove 702 and the grillage 703, and drawing groove 702 and grillage 703 all have a plurality of groups along the vertical direction parallel arrangement of rose box 7, utilize the sliding construction between drawing groove 702 and the grillage 703, conveniently demolish and change grillage 703 to be favorable to changing and wasing filter screen 704.

The utility model discloses in, the inside of nitrogen oxygen separating mechanism 11 is provided with reposition of redundant personnel bucket 1101, shunt tubes 1102, molecular sieve jar 1103, location mounting bracket 1104 and screw rod 1105, and the upper surface of reposition of redundant personnel bucket 1101 is connected with shunt tubes 1102, shunt tubes 1102's the other end is connected with molecular sieve jar 1103, and molecular sieve jar 1103's the outside installs location mounting bracket 1104, location mounting bracket 1104's both ends have all been alternate screw rod 1105, be provided with multiunit molecular sieve jar 1103 through the inside at nitrogen oxygen separating mechanism 11, can filter oxygen simultaneously, and carry out the nitrogen oxygen separation, with the high purity of guaranteeing oxygen, greatly increased the efficiency of preparing to oxygen, thereby satisfy the super dissolving system of pure oxygen and use better.

The utility model discloses in, the axis of nitrogen oxygen separating mechanism 11 and the axis of reposition of redundant personnel bucket 1101 coincide each other, and reposition of redundant personnel bucket 1101 passes through interconnect between shunt tubes 1102 and the molecular sieve jar 1103, the setting of reposition of redundant personnel bucket 1101, can concentrate the air after the high density compression, utilize shunt tubes 1102 to distribute the air simultaneously, let the air filter and oxygen prepare in getting into the molecular sieve jar 1103 evenly regularly, because the molecular sieve can appear consuming, when changing, pull down screw rod 1105 from the both ends of location mounting bracket 1104, can change down molecular sieve jar 1103 from location mounting bracket 1104, be favorable to shortening the time of changing like this, the operation is also simpler.

The working principle is as follows: for the oxygen generator for the pure oxygen super-dissolution system, firstly, the sealing cover 303 is pulled upwards, the pull rod 302 is moved upwards, the bottom of the pull rod 302 is embedded into the bayonet 301, then, air is sucked into the oxygen generator body 1 from the air pipe 3 by using the fan 304, the air enters the filter box 7 through the air inlet 701 on the surface of the filter box 7 at the first time, and passes through the filter screen 704 arranged in the filter box 7 in sequence, after multi-layer filtering and screening, the air enters the oil-free air compressor 9 by using the connecting pipeline 8, the air is compressed at high density by using the oil-free air compressor 9, then the compressed air passes through the condenser 10, after gas-liquid separation is carried out by using the difference of condensation points of each component in the air, the air enters the shunting barrel 1101 in the nitrogen-oxygen separation mechanism 11 through the connecting pipeline 8, secondly, reposition of redundant personnel bucket 1101 can concentrate the reposition of redundant personnel through shunt tubes 1102 to the air, let the air reach molecular sieve jar 1103, utilize the absorption speciality of molecular sieve, regard as power with oil-free air compressor 9, separate nitrogen gas and oxygen in the air, secondly again, when exporting high concentration oxygen, molecular sieve jar 1103 can be at the in-process of decompression, discharge adsorbed nitrogen gas from the upper end of molecular sieve jar 1103, follow-up can adsorb nitrogen gas again and make oxygen, then, oxygen is exported through connecting tube 8 from the bottom of molecular sieve jar 1103, and store and export in entering oxygen storage bottle 12, high-purity oxygen can be when exporting, can come to humidify oxygen through humidifying bottle 4, let oxygen more, can combine better with super dissolving system, accomplish the use of whole super pure oxygen oxygenerator for dissolving system oxygen generator like this.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a pure oxygen hyperdissolution oxygenerator for system, includes oxygen generation organism (1) and tuber pipe (3), its characterized in that: air inlet roof-rack (2) is installed at the top of system oxygen organism (1), and the surface of air inlet roof-rack (2) is provided with the dryer, humidifying bottle (4) are installed to the front side of system oxygen organism (1), and the surface of humidifying bottle (4) is provided with oxygen port (5), the one end of oxygen port (5) is connected with blast pipe (6), rose box (7) are installed to the below of air inlet roof-rack (2), and the bottom of rose box (7) is connected with connecting tube (8), the lower extreme of connecting tube (8) is provided with no oily air compressor (9), and one side of no oily air compressor (9) is connected with condenser (10) through connecting tube (8), nitrogen oxygen separating mechanism (11) is installed to one side top of condenser (10), and the below of nitrogen oxygen separating mechanism (11) is connected with oxygen storage bottle (12), the inside of tuber pipe (3) is provided with bayonet socket (301), Pull rod (302), closing cap (303), fan (304) and rubber circle (305), and the inside gomphosis of bayonet socket (301) installs pull rod (302), closing cap (303) are installed to the top of pull rod (302), the below of bayonet socket (301) is provided with fan (304), the bottom surface of pull rod (302) is provided with rubber circle (305).

2. The oxygen generator for pure oxygen ultra-dissolution system according to claim 1, wherein: the size of bayonet (301) and the bottom of pull rod (302) mutually supports, and tuber pipe (3) have a plurality of groups along the surperficial equidistance distribution of air inlet roof-rack (2).

3. The oxygen generator for pure oxygen ultra-dissolution system according to claim 1, wherein: the surface of the filter box (7) is provided with an air inlet (701), a drawing groove (702), a plate frame (703) and a filter screen (704), the drawing groove (702) is arranged below the air inlet (701), the plate frame (703) is arranged inside the drawing groove (702), and the filter screen (704) is arranged on the inner surface of the plate frame (703).

4. The oxygen generator for a pure oxygen ultra-dissolution system according to claim 3, wherein: the drawing groove (702) and the plate frame (703) are connected in a sliding mode, and the drawing groove (702) and the plate frame (703) are provided with a plurality of groups in parallel along the vertical direction of the filter box (7).

5. The oxygen generator for pure oxygen ultra-dissolution system according to claim 1, wherein: the inside of nitrogen oxygen separating mechanism (11) is provided with reposition of redundant personnel bucket (1101), shunt tubes (1102), molecular sieve jar (1103), location mounting bracket (1104) and screw rod (1105), and the upper surface of reposition of redundant personnel bucket (1101) is connected with shunt tubes (1102), the other end of shunt tubes (1102) is connected with molecular sieve jar (1103), and the outside of molecular sieve jar (1103) is installed location mounting bracket (1104), screw rod (1105) have all been alternate at the both ends of location mounting bracket (1104).

6. The oxygen generator for pure oxygen ultra-dissolution system according to claim 5, wherein: the central axis of nitrogen-oxygen separation mechanism (11) and the central axis of reposition of redundant personnel bucket (1101) coincide each other, and reposition of redundant personnel bucket (1101) pass through interconnect between shunt tubes (1102) and molecular sieve jar (1103).

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