CN114649751B - Ion wind stick of modularization concatenation - Google Patents

Abstract

The application relates to a modularly spliced ion air bar which comprises a mounting shell, wherein the mounting shell is provided with an accommodating cavity; the air flue assembly pipe is provided with a plurality of air flue assembly pipes, the air flue assembly pipes are arranged in the accommodating cavity, the air flue assembly pipes are provided with air inlet portions communicated with the inside of the air flue assembly pipes, two adjacent air flue assembly pipes are connected in a detachable and sealed mode through the air inlet portions, and air outlet holes communicated with the outside of the accommodating cavity are formed in the air flue assembly pipes. The present application has the effect of reducing the cost of the static elimination device being manufactured.

Description

Ion wind stick of modularization concatenation

Technical Field

The application relates to the field of static elimination equipment, in particular to an ion wind rod spliced in a modularization mode.

Background

The ion wind rod is a special fixed static eliminating equipment, belonging to a rod type static eliminating product. The static eliminating device has the characteristics of simple installation, safe and stable work and high static eliminating speed. The method is mainly used in the industries of electronics, plastics, silk screen printing, pre-printing systems, image processing and the like. Meanwhile, the ion wind bar is also used in the covering and cutting production equipment for printing plastic films and paper, in the related technology, most of the ion wind bars are of long strip-shaped structures, and for different static electricity removing environments, the ion wind bars with different lengths need to be customized to adapt to the killing areas with different sizes.

In view of the above-mentioned related technologies, there is a drawback that the ion wind rods with different lengths need to be individually customized under different static electricity removing environments, thereby resulting in higher cost of the manufactured static electricity removing device.

Disclosure of Invention

In order to reduce the cost of the manufactured static elimination equipment, the application provides a modular spliced ion air rod.

The application provides an ion wind stick of modularization concatenation adopts following technical scheme:

a modularly spliced ionic wind wand comprising:

a mounting housing having an accommodating cavity;

the air flue assembly pipe is provided with a plurality of air flue assembly pipes which are arranged in the accommodating cavity, the air flue assembly pipe is provided with an air inlet part communicated with the inside of the air flue assembly pipe, the air inlet part is adjacent to the air flue assembly pipe, the air flue assembly pipe is detachably communicated and connected with the air inlet part, and the air flue assembly pipe is provided with an air outlet hole communicated with the outside of the accommodating cavity.

By adopting the technical scheme, when the ion wind rod is applied to different environments, the air flue assembly pipes can be connected together through the air inlet part until the lengths of the air flue assembly pipes reach the preset requirement, then necessary circuit elements are installed on the air flue assembly pipes or the installation shell, and then the installation shell is coated on the air flue assembly pipes, so that the ion wind rods with different lengths can be manufactured.

Preferably, the mounting shell comprises a plurality of upper shells, a lower shell and two end covers, the plurality of upper shells and the plurality of air passage assembly pipes are arranged correspondingly, the plurality of upper shells are detachably connected through the lower shell, and the plurality of upper shells and the lower shell form a pipe shell; the two end covers are respectively connected to two ends of the pipe shell.

Through adopting above-mentioned technical scheme, compare in the installation casing need come the mode of customization according to the length of a plurality of air flue assembly pipes, this kind of design, because of the epitheca can correspond the setting according to the quantity of air flue assembly pipe, so can reduce the manufacturing cost of installation casing, the combined action of inferior valve and two end covers in addition can also make the connection between a plurality of epitheca more firm, thereby can reduce the manufacturing cost of ion wind stick, also can keep the bulk strength of installation shell in the ion wind stick.

Preferably, the air conditioner further comprises two air inlet connectors, the two air inlet connectors are respectively connected to the two air flue assembly pipes which are farthest away, and the air inlet connectors are detachably connected with the air inlet portion.

By adopting the technical scheme, on one hand, the air passage assembly pipe is in a long and narrow tubular shape, so that the arrangement of the air inlet joint can be used as a buffer area for external air to enter the air passage assembly pipe, so that the air flowing into the air passage assembly pipe can be diffused more uniformly, the pressure inside the air passage assembly pipe can be more constant, and the connecting part between two adjacent air passage assembly pipes cannot deform or break; on the other hand, the air inlet joint is provided with two modes, and air can flow into the inner parts of the air flue assembly pipes more uniformly, so that the air outlet quantity between different air flue assembly pipes is more uniform.

Preferably, the air inlet portion comprises a first connecting pipe and a second connecting pipe, and the first connecting pipe is connected to one end of the air flue assembly pipe; the second connecting pipe is connected to the other end of the air passage assembly pipe, and the outer wall of the second connecting pipe is in threaded connection with the inner wall of the first connecting pipe.

Through adopting above-mentioned technical scheme, because of the air inlet portion includes first connecting pipe and second connecting pipe, so the mode of the inner wall of accessible second connecting pipe screw-in first connecting pipe realizes detachable connection and sealing connection between two adjacent air flue assembly pipes to can accomplish the reliable connection between a plurality of air flue assembly pipes more simply, and then at the manufacturing cost who does not influence the reduction ion wind stick of ion wind stick performance.

Preferably, the two air inlet joints are respectively in threaded connection with the first connecting pipe or the second connecting pipe; the outer wall of the second connecting pipe is sleeved with a sealing ring, and the sealing ring can be abutted against the first connecting pipe.

By adopting the technical scheme, on one hand, the air inlet joint and the first connecting pipe or the second connecting pipe are in threaded connection, so that the connection modes among the air flue assembly pipes and between the air flue assembly pipes and the air inlet joint are more consistent, the air pressure among the connection positions can be more uniform, and the connection positions among the air inlet joint, the air flue assembly pipes and the air flue assembly pipes are more difficult to deform and break; on the other hand, because the air flue assembly pipe is in a long and narrow tubular shape, the sealing requirement between the air flue assembly pipes is higher, and the arrangement of the sealing ring can improve the connection air tightness between the first connecting pipe and the second connecting pipe, so that the connection air tightness between two adjacent air flue assembly pipes can be further improved.

Preferably, two inner walls adjacent to the air outlet hole in the air passage assembly pipe are in a wave shape along the axial direction of the air passage assembly pipe.

Through adopting above-mentioned technical scheme, then gaseous can flow with the form of vortex in air flue assembly pipe, so gaseous dynamics of going out from the exhaust vent can be stronger to gaseous ability diffusion is to the farther place of distance ion wind stick, and then helps promoting the effect scope of ion wind stick.

Preferably, the air passage assembly pipe is provided with a nozzle component at the air outlet, the nozzle component comprises a spray head and a mounting column, the spray head is detachably connected with the air passage assembly pipe, the spray head is provided with an air outlet channel, one end of the air outlet channel is communicated with the inside of the air passage assembly pipe, and the other end of the air outlet channel is communicated with the outside of the mounting shell; the mounting column is arranged on one end of the air outlet channel communicated with the air passage assembly pipe in a sealing manner; the air outlet channel is provided with a pressurizing perforation communicated with the inside of the air passage assembly, and the pressurizing perforation is positioned on one side, away from the inside of the air passage assembly, of the mounting column.

Through adopting above-mentioned technical scheme, because of the mode that nozzle assembly includes shower nozzle and erection column, so the inside gas of air flue assembly can be earlier through the pressurization perforation get into the passageway of giving vent to anger, and it is external to flow to the installation casing to follow the passageway of giving vent to anger again, and at this in-process, gas can be from a big space entering a little air, so the velocity of flow when gas leaves the passageway of giving vent to anger can be faster to help promoting the effect scope of ion wind stick.

Preferably, a discharge needle penetrates through the mounting column, one end of the discharge needle extends into the air passage assembly tube, and the other end of the discharge needle extends out of one end of the air outlet channel outside the mounting shell; and a high-voltage elastic sheet is arranged on the inner wall, opposite to the air outlet, in the air passage assembly pipe and connected with the discharge needle contact.

Through adopting above-mentioned technical scheme, compare in the discharge needle and the mode that the nozzle set up in two positions alone, this kind of design, then behind discharge needle is in the one end ionization outside the installation casing positive ion and negative ion, the gas that leaves from air outlet channel department just can directly carry positive ion and negative ion to farther position to more positive ion and the farther position of negative ion diffusion that can be more, and then help promoting the performance of ion wind stick.

Preferably, an auxiliary pressurizing part is arranged at one end of the mounting column far away from the inner end of the air passage assembly pipe, the auxiliary pressurizing part comprises an extension column and a shielding piece, the extension column is connected with the mounting column, and a gap exists between the extension column and the inner wall of the air outlet channel; it connects to shelter from the piece on the terminal surface of erection column, it connects to shelter from the piece on the week side of extension column, it winds to shelter from the piece the axis distribution of extension column has a plurality ofly, adjacent two it is a plurality of respectively to shelter from the clearance between the piece the pressurization perforation is linked together.

Through adopting above-mentioned technical scheme, because of supplementary pressure member includes extension post and a plurality of shielding piece, then the inside remaining space of outlet channel can be littleer, and gas can follow during a plurality of pressurization perforation effluences flow into outlet channel simultaneously, so can further promote the diffusion range after gas leaves the nozzle, also can make the pressure variation of gas between nozzle and air flue assembly pipe difficult too big to keep the stability of ion wind stick during operation.

Preferably, a connecting nut is arranged at one end of each two adjacent high-voltage elastic sheets, which is close to each other; and an air passage connecting piece is arranged between every two adjacent air passage assembly pipes and can be matched with the connecting nut through screws to be connected to the outer wall of each air passage assembly pipe.

Through adopting above-mentioned technical scheme, compare in the mode that a plurality of high-voltage shell fragments are connected with external power supply alone, this kind of design can make a plurality of high-voltage shell fragments and external power supply's connection structure simple more, simultaneously because of the mode that the connection between a plurality of high-voltage shell fragments is close to the contact connection, so can also make the electrical loss between a plurality of high-voltage shell fragments can reduce to help reducing the power consumption of ion wind stick.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the arrangement of the mounting shell and the air flue assembly pipes, the air flue assembly pipes can be spliced into a required length through the air inlet part, so that an ion air bar meeting the requirements can be conveniently manufactured, and the cost of consumed static elimination equipment can be reduced;

2. the installation shell comprises a plurality of upper shells, a lower shell and two end covers, the upper shells can be correspondingly arranged according to the number of the air passage assembly pipes, so that the manufacturing cost of the installation shell can be reduced, and the connection between the plurality of upper shells can be firmer under the combined action of the lower shells and the two end covers, so that the manufacturing cost of the ion wind rod can be reduced, and the integral strength of the installation shell in the ion wind rod can be maintained;

3. through air inlet joint's setting, then can regard as the buffer area before the external gas gets into air flue assembly pipe to can make the inside gas diffusion ground of air flue assembly that flows in more even, also enable the inside pressure of air flue assembly pipe more invariable, and can also make the junction can not take place the condition of deformation and fracture between two adjacent air flue assembly pipes.

Drawings

Fig. 1 is an exploded schematic view of a modular tiled ion wind bar in an embodiment of the present application.

FIG. 2 is a schematic view of a nozzle assembly in an embodiment of the present application.

Description of reference numerals: 1. installing a shell; 11. an accommodating cavity; 12. an upper shell; 13. a lower case; 14. an end cap; 15. a pipe shell; 2. an airway assembly tube; 21. an air inlet part; 211. a first connecting pipe; 212. a second connecting pipe; 22. an air outlet; 23. a high-voltage spring plate; 24. a connecting nut; 3. an air inlet joint; 4. a seal ring; 5. a nozzle assembly; 51. a spray head; 511. an air outlet channel; 512. pressure perforation; 52. mounting a column; 6. a discharge needle; 7. an auxiliary pressurizing member; 71. extending the column; 72. a shielding sheet; 8. an airway connecting piece.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses ion wind rod of modularization concatenation. Referring to fig. 1 and 2, the ion wind rod includes a mounting housing 1 and an air passage assembly tube 2, specifically, an accommodating cavity 11 is integrally formed on the mounting housing 1 for mounting components in the ion wind rod; the air duct assembly pipes 2 are provided with a plurality of air duct assembly pipes, but for convenience of description, two air duct assembly pipes 2 are described in this embodiment as an example, wherein two air duct assembly pipes 2 are both arranged in the accommodating cavity 11, and each air duct assembly pipe 2 has an air inlet portion 21, and two adjacent air duct assembly pipes 2 are detachably connected through the air inlet portion 21, and meanwhile, an air outlet hole 22 communicated with the outside of the accommodating cavity 11 is integrally formed in each air duct assembly pipe 2, so that the air duct assembly pipes 2 can have air inlet and outlet functions.

Referring to fig. 1, when ion wind bars with different lengths need to be manufactured, a plurality of air flue assembly pipes 2 are firstly spliced together through an air inlet part 21 until the lengths of the air flue assembly pipes 2 reach a preset requirement, necessary circuit elements are installed on the air flue assembly pipes 2 or an installation shell 1, and then the installation shell 1 is coated on the air flue assembly pipes 2, so that the ion wind bars with different lengths can be manufactured.

Referring to fig. 1, the air inlet portion 21 includes a first connection pipe 211 and a second connection pipe 212, the first connection pipe 211 is integrally formed at one end of the air duct assembly pipe 2, the second connection pipe 212 is integrally formed at the other end of the air duct assembly pipe 2, and an inner wall of the first connection pipe 211 is in threaded connection with an outer wall of the second connection pipe 212, so that two adjacent air duct assembly pipes 2 can be detachably connected and also can be connected with each other with a certain sealing property through the air inlet portion 21, in addition, in order to improve the sealing property between the two air duct assembly pipes 2, an O-shaped sealing ring 4 is sleeved on an outer circumference of the second connection pipe 212, and when the first connection pipe 211 and the second connection pipe 212 are fixed together, the sealing ring 4 and the first connection pipe 211 are in a tight state, so that air pressures inside the air duct assembly pipe 2 and between the air duct assembly pipes 2 can be more stable.

Referring to fig. 1, in this embodiment, the ion wind rod further includes two air inlet joints 3, the two air inlet joints 3 are respectively connected to the ends of the two airway assembly pipes 2 away from each other, specifically, one of the air inlet joints 3 is in threaded connection with the second connection pipe 212 on one airway assembly pipe 2, and the other air inlet joint 3 is in threaded connection with the first connection pipe 211 on the other airway assembly pipe 2, so that the air inlet joint 3 and the airway assembly pipe 2 are also in detachable connection and sealed connection, when air enters, the air flows into the airway assembly pipe 2 through the air inlet joint 3, and then flows into the airway assembly pipe 2, so that the air inlet joint 3 can serve as a buffer area where external air enters the airway assembly pipe 2, thereby not only making the air flowing into the airway assembly pipe 2 diffuse more uniformly, but also making the pressure inside the airway assembly pipe 2 more constant, and at the connection between the two adjacent airway assembly pipes 2 not deform or even break.

Referring to fig. 1, in order to further reduce the cost consumed for customizing ion wind rods with different lengths, the installation housing 1 includes a plurality of upper housings 12, a lower housing 13 and two end caps 14, the number of the upper housings 12 is two, the two upper housings 12 are arranged corresponding to the two air channel assembly pipes 2, wherein the two upper housings 12 and the two lower housings 13 are both in snap connection, and after the two upper housings 12 and the lower housing 13 are connected, a pipe housing 15 is formed, and the two end caps 14 are respectively fixedly connected to two ends of the pipe housing 15 through screws, so that the assembly of the installation housing 1 is completed.

Referring to fig. 1 and 2, in order to improve the killing performance of the ion wind rod, in this embodiment, the air duct assembly pipe 2 is provided with a nozzle assembly 5 at the air outlet 22, specifically, the nozzle assembly 5 includes a nozzle 51 and a mounting column 52, an air outlet passage 511 is integrally formed on the nozzle 51, one end of the air outlet passage 511 is communicated with the inside of the air duct assembly pipe 2, and the other end is communicated with the outside of the mounting shell 1; the mounting post 52 is hermetically fixed on the end of the air outlet passage 511 communicating with the inside of the air duct assembly pipe 2, so that in order to communicate the air outlet passage 511 with the inside of the air duct assembly pipe 2, the air outlet passage 511 is provided with a plurality of pressurizing through holes 512, and the pressurizing through holes 512 are located on the side of the mounting post 52 away from the inside of the air duct assembly pipe 2, so that when air flows into the air outlet passage 511 from the inside of the air duct assembly pipe 2, the air pressure is increased due to the air flowing into the small space from the large space, and the air can diffuse to a farther position after leaving the air outlet passage 511.

Referring to fig. 1 and 2, an auxiliary pressurizing member 7 is disposed on an end of the mounting post 52 away from the interior of the air duct assembly tube 2, specifically, the auxiliary pressurizing member 7 includes an extending post 71 and a shielding sheet 72, the extending post 71 is coaxially connected with the mounting post 52, and a gap exists between the extending post 71 and the inner wall of the air outlet passage 511; the shielding sheets 72 are arc-shaped, the shielding sheets 72 are connected to the end faces of the mounting posts 52, the shielding sheets 72 abut against the peripheral sides of the extending posts 71, the shielding sheets 72 are uniformly distributed around the axis of the extending posts 71, and gaps between two adjacent shielding sheets 72 are respectively communicated with the pressurizing through holes 512, so that the remaining space in the air outlet passage 511 is smaller, and the air pressure in the air outlet passage 511 is also promoted.

In other embodiments, two inner walls of the airway assembly tube 2 adjacent to the air outlet 22 are wavy along the axial direction of the airway assembly tube 2, so that the air flowing inside the airway assembly tube 2 will be in the form of vortex, thereby increasing the flow rate of the air after leaving the air outlet passage 511.

Referring to fig. 1 and 2, in the present embodiment, a discharge needle 6 is coaxially and fixedly inserted into the mounting column 52, one end of the discharge needle 6 extends into the air duct assembly tube 2 to circulate current, and the other end of the discharge needle 6 extends out of one end of the air outlet channel 511 located outside the mounting housing 1 to perform ionization, so that when positive ions or negative ions are generated by ionization of the discharge needle 6, the gas can directly take away the positive ions or negative ions after leaving the air outlet channel 511, and thus the positive ions and negative ions can be diffused to a position farther away from the wind rod.

Referring to fig. 1 and 2, in this embodiment, be provided with high-pressure shell fragment 23 on the one side inner wall relative with exhaust vent 22 in the air flue assembly pipe 2, high-pressure shell fragment 23 is electrocuted with discharge needle 6 and is connected, simultaneously in order to realize the electric intercommunication of high-pressure shell fragment 23 between two air flue assembly pipes 2, two high-pressure shell fragments 23 are close to each other one and are served equal integrated into one piece and have coupling nut 24, and be provided with air flue connection piece 8 between two adjacent air flue assembly pipes 2, and air flue connection piece 8 need fix on the outer wall of air flue assembly pipe 2 through the cooperation between screw and coupling nut 24, so the connection between two high-pressure shell fragments 23 is similar to the contact connection, thereby can reduce the electrical loss between a plurality of high-pressure shell fragments 23, and then can make the ion wind stick more energy-conserving.

The implementation principle of the modularly spliced ion air rod in the embodiment of the application is as follows: when ion wind rods with different lengths need to be manufactured, the air flue assembly pipes 2 are firstly spliced together through the air inlet parts 21 until the lengths of the air flue assembly pipes 2 reach the preset requirements, necessary circuit elements are installed on the air flue assembly pipes 2 or the installation shell 1, and then the installation shell 1 is coated on the air flue assembly pipes 2, so that the ion wind rods with different lengths can be manufactured.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (4)

1. The utility model provides an ion wind stick of modularization concatenation which characterized in that: the method comprises the following steps:

a mounting housing (1), the mounting housing (1) having an accommodating chamber (11);

the air flue assembly pipes (2) are arranged in the accommodating cavity (11), the air flue assembly pipes (2) are provided with air inlet parts (21) communicated with the inside of the air flue assembly pipes, two adjacent air flue assembly pipes (2) are detachably communicated and connected through the air inlet parts (21), and the air flue assembly pipes (2) are provided with air outlet holes (22) communicated with the outside of the accommodating cavity (11);

two inner walls adjacent to the air outlet hole (22) in the air passage assembly pipe (2) are in a wave shape along the axial direction of the air passage assembly pipe (2);

the air passage assembly pipe (2) is provided with a nozzle component (5) at the air outlet (22), the nozzle component (5) comprises a spray head (51) and a mounting column (52), the spray head (51) is detachably connected with the air passage assembly pipe (2), the spray head (51) is provided with an air outlet channel (511), one end of the air outlet channel (511) is communicated with the inside of the air passage assembly pipe (2), and the other end of the air outlet channel (511) is communicated with the outside of the mounting shell (1); the mounting column (52) is hermetically arranged at one end of the air outlet channel (511) communicated with the air flue assembly pipe (2); the air outlet channel (511) is provided with a pressurizing perforation (512) communicated with the inside of the air passage assembly pipe (2), and the pressurizing perforation (512) is positioned on one side of the mounting column (52) far away from the inside of the air passage assembly pipe (2);

the air outlet channel (511) is provided with a plurality of pressurizing through holes (512), the pressurizing through holes (512) are positioned on one side of the mounting column (52) far away from the inside of the air flue assembly pipe (2), and when air flows into the air outlet channel (511) from the inside of the air flue assembly pipe (2), the air pressure is increased due to the fact that the air flows into a small space from a large space;

the air inlet joint is characterized by further comprising two air inlet joints (3), the two air inlet joints (3) are respectively connected to the two air flue assembly pipes (2) which are farthest away, the air inlet joints (3) are detachably connected with the air inlet part (21), the air inlet part (21) comprises a first connecting pipe (211) and a second connecting pipe (212), and the first connecting pipe (211) is connected to one end of each air flue assembly pipe (2); the second connecting pipe (212) is connected to the other end of the air flue assembly pipe (2), the outer wall of the second connecting pipe (212) is in threaded connection with the inner wall of the first connecting pipe (211), and the two air inlet connectors (3) are in threaded connection with the first connecting pipe (211) or the second connecting pipe (212) respectively; the outer wall of the second connecting pipe (212) is sleeved with a sealing ring (4), the sealing ring (4) is tightly abutted to the first connecting pipe (211), one end, far away from the inside of the air passage assembly pipe (2), of the mounting column (52) is provided with an auxiliary pressurizing part (7), the auxiliary pressurizing part (7) comprises an extending column (71) and a shielding sheet (72), the extending column (71) is connected with the mounting column (52), the auxiliary pressurizing part (7) is located in an air outlet channel (511), and a gap exists between the extending column (71) and the inner wall of the air outlet channel (511); shelter from piece (72) and connect on the terminal surface of erection column (52), shelter from piece (72) and connect on the week side of extension post (71), shelter from piece (72) around the axis distribution of extension post (71) has a plurality ofly, adjacent two it is equipped with the clearance to shelter from between piece (72), the clearance respectively with a plurality of pressurization perforation (512) are linked together.

2. The modular tiled ion wind wand of claim 1, wherein: the mounting shell (1) comprises a plurality of upper shells (12), a lower shell (13) and two end covers (14), the upper shells (12) and the air passage assembly pipes (2) are arranged correspondingly, the upper shells (12) are detachably connected through the lower shell (13), and the upper shells (12) and the lower shell (13) form a pipe shell (15); the two end covers (14) are respectively connected to two ends of the pipe shell (15).

3. The modular tiled ion wind wand of claim 1, wherein: a discharge needle (6) penetrates through the mounting column (52), one end of the discharge needle (6) extends into the air flue assembly tube (2), and the other end of the discharge needle extends out of one end of the air outlet channel (511) and is positioned outside the mounting shell (1); and a high-voltage elastic sheet (23) is arranged on the inner wall of the air passage assembly pipe (2) opposite to the air outlet (22), and the high-voltage elastic sheet (23) is in contact connection with the discharge needle (6).

4. The modular tiled ion wind wand of claim 3, wherein: a connecting nut (24) is arranged at one end of each two adjacent high-voltage elastic sheets (23) which are close to each other; an air passage connecting piece (8) is arranged between every two adjacent air passage assembly pipes (2), and the air passage connecting piece (8) can be connected to the outer wall of each air passage assembly pipe (2) through screws and connecting nuts (24) in a matched mode.

Images