CN215559023U - Energy-conserving nitrogen machine of high purity with filtration - Google Patents

Abstract

The utility model discloses a high-purity energy-saving nitrogen making machine with a filtering structure, which comprises a fixed base and a filtering mechanism, wherein an air compressor is fixedly arranged on one side of the top end of the fixed base, an organism is fixedly arranged on the other side of the top end of the fixed base, an air outlet of the air compressor is fixedly communicated with a conveying pipe, one end of the conveying pipe, far away from the air compressor, is fixedly communicated with an air inlet of the organism, the middle part of the conveying pipe is fixedly provided with the filtering mechanism, a cleaning mechanism positioned on one side of the filtering mechanism is fixedly arranged on the conveying pipe, and an installation seat is arranged inside a first filtering frame. The impurity pollution is prevented from influencing the purity of the nitrogen produced by the nitrogen making machine.

Description

Energy-conserving nitrogen machine of high purity with filtration

Technical Field

The utility model relates to the technical field of nitrogen making machines, in particular to a high-purity energy-saving nitrogen making machine with a filtering structure.

Background

The nitrogen making machine is a device which takes air as a raw material and separates oxygen and nitrogen in the air by a physical method to obtain nitrogen, the air is required to be introduced by an air compressor in the market, however, in the process of introducing the air, the air contains certain impurities, the impurities are adsorbed into the filler to influence the adsorption efficiency of the filler, and the purity of the nitrogen produced by the nitrogen making machine is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a high-purity energy-saving nitrogen making machine with a filtering structure, which aims to solve the problems that in the air introducing process, air contains certain impurities, the impurities are adsorbed into a filler to influence the adsorption efficiency of the filler, and the purity of nitrogen produced by the nitrogen making machine is reduced.

In order to achieve the purpose, the utility model provides the following technical scheme: a high-purity energy-saving nitrogen making machine with a filtering structure comprises a fixed base and a filtering mechanism, wherein an air compressor is fixedly installed on one side of the top end of the fixed base, a machine body is fixedly installed on the other side of the top end of the fixed base, an air outlet of the air compressor is fixedly communicated with a conveying pipe, one end, away from the air compressor, of the conveying pipe is fixedly communicated with an air inlet of the machine body, the filtering mechanism is fixedly installed in the middle of the conveying pipe, a cleaning mechanism located on one side of the filtering mechanism is fixedly installed on the conveying pipe, the filtering mechanism comprises a first filtering frame, a first filtering screen, four second filtering frames, four second filtering screens, four connecting rods and an installation seat, the installation seat is installed inside the first filtering frame, the four connecting rods are installed on the side face of the installation seat, and the second filtering frame is fixedly installed at one end, away from the installation seat, of the four connecting rods, install first filter screen, four between first filter frame and the mount pad the second filter frame's inside all installs the second filter screen, the both ends of organism one side fixed mounting respectively has angle switch and clearance switch.

As a preferred technical scheme of the utility model, the cleaning mechanism comprises a positioning plate, two first electric telescopic rods, two electric telescopic rod mounting seats, two oscillating plates, a central column, two sliding blocks and two second electric telescopic rods, wherein the two ends of one side of the positioning plate are both fixedly provided with the first electric telescopic rods, the movable ends of the two first electric telescopic rods are both fixedly provided with the electric telescopic rod mounting seats, the central column is fixedly arranged between the two electric telescopic rod mounting seats, the central column is connected with the two oscillating plates positioned on one side of the electric telescopic rod mounting seats, the side of the two electric telescopic rod mounting seats far away from the positioning plate is fixedly provided with the second electric telescopic rods, one sides of the two oscillating plates opposite to the electric telescopic rod mounting seats are both provided with displacement grooves, and the sliding blocks are respectively connected inside the two displacement grooves in a sliding manner, two the expansion end of second electric telescopic handle is connected with one side of two sliders respectively, two first electric telescopic handle all with clearance switch electric connection, two second electric telescopic handle all with angle switch electric connection.

As a preferable technical scheme of the utility model, a plurality of communicating ports are formed on the surface of the positioning plate and the surface of the central column, and the outer side of the positioning plate is connected with the conveying pipe.

As a preferred technical scheme of the utility model, the outer side of the first filter frame is connected with a conveying pipe, the conveying pipe is provided with a dust guide plate positioned below the mounting seat, the surface of the dust guide plate is provided with a plurality of dust guide grooves, the bottom end of the conveying pipe is fixedly communicated with a waste pipe positioned on one side of the dust guide plate, the middle part of the top end of the fixing base is fixedly provided with a dust collection box, one end of the waste pipe, far away from the conveying pipe, is fixedly communicated with the top end of the dust collection box, the middle part of the waste pipe is fixedly provided with a valve, and one side of the dust collection box is hinged with a box door.

As a preferred technical solution of the present invention, an air inlet of the air compressor is fixedly communicated with an air inlet pipe, and an air outlet of the machine body is fixedly communicated with a nitrogen gas outlet pipe.

As a preferable technical solution of the present invention, the aperture of the filter holes of the four second filter screens is larger than the aperture of the filter holes of the first filter screen.

Compared with the prior art, the utility model has the beneficial effects that: through setting up filtering mechanism, four second filter screens and first filter screen carry out the secondary filter to the miscellaneous dirt of the leading-in-process of air, and miscellaneous dirt gets rid of efficiently, avoids miscellaneous dirt to adsorb the adsorption efficiency who guarantees the filler in to packing, avoids miscellaneous dirt to influence the purity that nitrogen machine produced nitrogen gas.

Drawings

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

FIG. 2 is a schematic view of the filter mechanism of the present invention;

FIG. 3 is a schematic structural view of the cleaning mechanism of the present invention;

FIG. 4 is a schematic structural view of a dust guide plate according to the present invention;

figure 5 is a connection of the dust bin of the present invention to a waste pipe.

In the figure: 1. a fixed base; 2. an air compressor; 3. an air inlet pipe; 4. a delivery pipe; 5. a dust guide plate; 6. a filtering mechanism; 61. a first filter frame; 62. a first filter screen; 63. a second filter frame; 64. a second filter screen; 65. a connecting rod; 66. a mounting seat; 7. a cleaning mechanism; 701. positioning a plate; 702. a communication port; 703. a first electric telescopic rod; 704. an electric telescopic rod mounting seat; 705. an oscillating plate; 706. a central column; 707. a slider; 708. a displacement slot; 709. a second electric telescopic rod; 8. a dust collection box; 9. a body; 10. an angle switch; 11. a cleaning switch; 12. a nitrogen gas discharge pipe; 13. a dust guide groove; 14. a box door; 15. a waste pipe; 16. and (4) a valve.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-5, the present invention provides a high purity energy saving nitrogen generator with a filtering structure, which comprises a fixed base 1 and a filtering mechanism 6, wherein an air compressor 2 is fixedly installed on one side of the top end of the fixed base 1, a generator body 9 is fixedly installed on the other side of the top end of the fixed base 1, an air outlet of the air compressor 2 is fixedly communicated with a delivery pipe 4, one end of the delivery pipe 4 far away from the air compressor 2 is fixedly communicated with an air inlet of the generator body 9, the middle part of the delivery pipe 4 is fixedly installed with the filtering mechanism 6, the delivery pipe 4 is fixedly installed with a cleaning mechanism 7 located on one side of the filtering mechanism 6, the filtering mechanism 6 comprises a first filtering frame 61, a first filtering net 62, four second filtering frames 63, four second filtering nets 64, four connecting rods 65 and a mounting seat 66, the mounting seat 66 is installed inside the first filtering frame 61, and the four connecting rods 65 are installed on the side surface of the mounting seat 66, four connecting rods 65 keep away from the equal fixed mounting in one end of mount pad 66 and have the second to cross filter frame 63, install first filter screen 62 between first filter frame 61 and the mount pad 66, the second filter screen 64 is all installed to the inside of four second filter frames 63, the both ends of organism 9 one side fixed mounting respectively has angle switch 10 and clearance switch 11, gas after air compressor 2 compression passes through conveyer pipe 4 and carries to organism 9 in, gas carries out the prefilter through second filter screen 64, first filter screen 62 carries out the secondary filter, ensure edulcoration efficiency.

Preferably, the cleaning mechanism 7 comprises a positioning plate 701, two first electric telescopic rods 703, two electric telescopic rod mounting seats 704, two oscillating plates 705, a central column 706, two sliding blocks 707 and two second electric telescopic rods 709, wherein the first electric telescopic rods 703 are fixedly mounted at both ends of one side of the positioning plate 701, the electric telescopic rod mounting seats 704 are fixedly mounted at the movable ends of the two first electric telescopic rods 703, the central column 706 is fixedly mounted between the two electric telescopic rod mounting seats 704, the central column 706 is connected with the two oscillating plates 705 positioned at one side of the electric telescopic rod mounting seats 704, the second electric telescopic rods 709 are fixedly mounted at one side of the two electric telescopic rod mounting seats 704 away from the positioning plate 701, displacement grooves 708 are formed at one sides of the two oscillating plates 705 opposite to the electric telescopic rod mounting seats 704, the sliding blocks 707 are slidably connected inside the two displacement grooves 708, the movable ends of the two second electric telescopic rods 709 are respectively connected with one sides of the two sliding blocks 707, two first electric telescopic handle 703 all with clearance switch 11 electric connection, two second electric telescopic handle 709 all with angle switch 10 electric connection, angle switch 10 is opened to the staff, two second electric telescopic handle 709 start, second electric telescopic handle 709 drives slider 707 and removes about in displacement tank 708, with this expansion angle of adjusting oscillating plate 705, after oscillating plate 705 flushes with center post 706, staff closes angle switch 10, two second electric telescopic handle 709 close, the staff presses clearance switch 11, two first electric telescopic handle 703 starts, first electric telescopic handle 703 drives oscillating plate 705 reciprocal and the contact of filter mechanism 6 through electric telescopic handle mount pad 704, the impurity of filter mechanism 6 surface adhesion receives the oscillation and drops.

Preferably, a plurality of communication ports 702 are formed on the surface of the positioning plate 701 and the surface of the central column 706, the outer side of the positioning plate 701 is connected with the delivery pipe 4, and the communication ports 702 are formed to ensure the circulation of the gas in the delivery pipe 4.

Preferably, the outer side of the first filter frame 61 is connected with the conveying pipe 4, the conveying pipe 4 is provided with a dust guide plate 5 located below the mounting seat 66, the surface of the dust guide plate 5 is provided with a plurality of dust guide grooves 13, the bottom end of the conveying pipe 4 is fixedly communicated with a waste pipe 15 located on one side of the dust guide plate 5, the middle part of the top end of the fixing base 1 is fixedly provided with a dust collection box 8, one end of the waste pipe 15, far away from the conveying pipe 4, is fixedly communicated with the top end of the dust collection box 8, the middle part of the waste pipe 15 is fixedly provided with a valve 16, one side of the dust collection box 8 is hinged with a box door 14, the dust guide grooves 13 on the dust guide plate 5 guide the impurities adhered to the filter mechanism 6, the impurities fall into the waste pipe 15, the valve 16 is rotated by a worker, the impurities are conveyed into the dust collection box 8 from the waste pipe 15, and the worker periodically opens the box door 14 to remove the impurities in the dust collection box 8.

Preferably, an air inlet pipe 3 is fixedly communicated with an air inlet of the air compressor 2, a nitrogen exhaust pipe 12 is fixedly communicated with an air outlet of the machine body 9, the air compressor 2 enters air through the air inlet pipe 3, and the machine body 9 exhausts the prepared nitrogen through the nitrogen exhaust pipe 12.

Preferably, the aperture of the filtering holes of the four second filtering nets 64 is larger than that of the first filtering net 62, and the impurities in the conveying pipe 4 are firstly filtered by the second filtering nets 64 for the first time and then filtered by the first filtering nets 62 for the second time.

When the high-purity energy-saving nitrogen making machine is used, air enters from an air compressor 2 through an air inlet pipe 3, the air compressed by the air compressor 2 is conveyed into a machine body 9 through a conveying pipe 4, the air is primarily filtered through a second filter screen 64, secondary filtering is carried out on a first filter screen 62 to ensure impurity removal efficiency, the gas after impurity removal is continuously conveyed into the machine body 9 in the conveying pipe 4, the machine body 9 carries out separation nitrogen making processing on the gas, the machine body 9 discharges the prepared nitrogen through a nitrogen discharge pipe 12, after the filtering mechanism 6 is used for a period of time, a worker opens an angle switch 10, two second electric telescopic rods 709 are started, the second electric telescopic rods 709 drive a sliding block 707 to move left and right in a displacement groove 708 to adjust the expansion angle of an oscillating plate 705, and after the oscillating plate 705 is flush with a central column 706, the worker closes the angle switch 10, two second electric telescopic handle 709 are closed, the staff presses clearance switch 11, two first electric telescopic handle 703 start, first electric telescopic handle 703 drives oscillating plate 705 reciprocal and the contact of filter mechanism 6 through electric telescopic handle mount pad 704, the impurity of filter mechanism 6 surface adhesion receives the oscillation and drops, lead the impurity that dust chute 13 on the dust guide plate 5 dropped on to filter mechanism 6 and carry out the water conservancy diversion, impurity drops in waste pipe 15, the staff rotates valve 16, impurity is carried to dust collection box 8 in from waste pipe 15, the staff regularly opens chamber door 14 and gets rid of the impurity in the dust collection box 8.

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 various changes in the embodiments and/or modifications of the utility model can be made, and equivalents and modifications of some features of the utility model can be made without departing from the spirit and scope of the utility model.

Claims (6)

1. The utility model provides an energy-conserving nitrogen machine of high purity with filtration, includes unable adjustment base (1) and filtering mechanism (6), its characterized in that: the air compressor is characterized in that an air compressor (2) is fixedly mounted on one side of the top end of the fixed base (1), an organism (9) is fixedly mounted on the other side of the top end of the fixed base (1), a conveying pipe (4) is fixedly communicated with an air outlet of the air compressor (2), one end, far away from the air compressor (2), of the conveying pipe (4) is fixedly communicated with an air inlet of the organism (9), a filtering mechanism (6) is fixedly mounted in the middle of the conveying pipe (4), a cleaning mechanism (7) located on one side of the filtering mechanism (6) is fixedly mounted on the conveying pipe (4), the filtering mechanism (6) comprises a first filtering frame (61), a first filtering screen (62), four second filtering frames (63), four second filtering screens (64), four connecting rods (65) and a mounting seat (66), and the mounting seat (66) is mounted in the first filtering frame (61), there are four connecting rods (65), four side-mounting of mount pad (66) the equal fixed mounting in one end that mount pad (66) were kept away from in connecting rod (65) has second filter frame (63), install first filter screen (62), four between first filter frame (61) and mount pad (66) second filter frame (63)'s inside all installs second filter screen (64), there are angle switch (10) and clearance switch (11) at the both ends difference fixed mounting of organism (9) one side.

2. The high-purity energy-saving nitrogen generator with the filtering structure as claimed in claim 1, wherein: clearance mechanism (7) are including locating plate (701), two first electric telescopic handle (703), two electric telescopic handle mount pads (704), two oscillating plates (705), center post (706), two slider (707) and two second electric telescopic handle (709), the equal fixed mounting in both ends of locating plate (701) one side has first electric telescopic handle (703), two the equal fixed mounting in expansion end of first electric telescopic handle (703) has electric telescopic handle mount pad (704), two fixed mounting has center post (706) between electric telescopic handle mount pad (704), center post (706) are connected with two oscillating plates (705) that are located electric telescopic handle mount pad (704) one side, two one side fixed mounting that locating plate (701) was kept away from in electric telescopic handle mount pad (704) has second electric telescopic handle (709), two displacement groove has all begun in oscillating plate (705) for one side of electric telescopic handle mount pad (704) (708) The two displacement grooves (708) are internally and slidably connected with sliding blocks (707), the movable ends of the two second electric telescopic rods (709) are respectively connected with one side of the two sliding blocks (707), the two first electric telescopic rods (703) are electrically connected with a cleaning switch (11), and the two second electric telescopic rods (709) are electrically connected with an angle switch (10).

3. The high-purity energy-saving nitrogen generator with the filtering structure as claimed in claim 2, wherein: the surface of the positioning plate (701) and the surface of the central column (706) are provided with a plurality of communicating ports (702), and the outer side of the positioning plate (701) is connected with the conveying pipe (4).

4. The high-purity energy-saving nitrogen generator with the filtering structure as claimed in claim 1, wherein: the outside and the conveyer pipe (4) of first filter frame (61) are connected, conveyer pipe (4) are installed and are located dust deflector (5) of mount pad (66) below, the surface of dust deflector (5) has been seted up a plurality of and has been led dirt groove (13), conveyer pipe (4) bottom mounting intercommunication has waste pipe (15) that are located dust deflector (5) one side, the middle part fixed mounting on unable adjustment base (1) top has dust collection box (8), the one end that conveyer pipe (4) were kept away from in waste pipe (15) and the fixed intercommunication in top of dust collection box (8), the middle part fixed mounting of waste pipe (15) has valve (16), one side of dust collection box (8) articulates there is chamber door (14).

5. The high-purity energy-saving nitrogen generator with the filtering structure as claimed in claim 1, wherein: an air inlet pipe (3) is fixedly communicated with an air inlet of the air compressor (2), and a nitrogen discharge pipe (12) is fixedly communicated with an air outlet of the machine body (9).

6. The high-purity energy-saving nitrogen generator with the filtering structure as claimed in claim 1, wherein: the aperture of the filter holes of the four second filter screens (64) is larger than that of the filter holes of the first filter screen (62).

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