WO2006001598A1 - An installation device of a discharge member of an anion generator for the doule spiral-type compact fluorescent lamp - Google Patents

Abstract

This invention is to provide installation structure device of anion generator of doule spiral- type compact fluorescence lamp by which the outward appearance of installation structure of anion discharge member is stable and does not harm beauty of fluorescent bulb while enhancing the air cleaning efficiency within realm of apparatus formation furnishing the anion generator integrally with said doule spiral-type compact fluorescence lamp wherein feature is that installation structure of anion discharge member pulled out by voltage cord from voltage generation part module of said anion generator is laid out according as two discharge members supported respectively by two voltage cords from said anionic voltage generator module are separatedly pulled out into V shape so that these two discharge members are mounted in proximity of respective center parts of left and right side crescent upper openings formed between inner end of cylindrical doule spiral-type fluorescence bulb and left and right ends of S type start point tube that are respectively uppermost members of said doule spiral-type fluorescence bulb.

Description

Description

AN INSTALLATION DEVICE OF A DISCHARGE MEMBER OF

AN ANION GENERATOR FOR THE DOULE SPIRAL-TYPE

COMPACT FLUORESCENT LAMP Technical Field [1] This invention is related to the discharge member installation structure within realm of the mounting structure to integrally accommodate small anion generation apparatus module in doule spiral-type compact fluorescence lamp and particularly is related to configuration where bulb of spiral-type fluorescence lamp is applied at doule spiral- type compact fluorescence lamp. [2] Background Art [3] There are many published prior inventions to bestow additional function of room air cleaning by integrally furnishing small anion generator unit within illumination apparatus of lamp or appliance such as Korean Patent Gazette Announcement No. 1997-0006047, "Illumination apparatus having additional function of air cleaning", Korean Patent Gazette Publication No. 2002-0078792, "Illumination apparatus having additional function of air cleaning by attachment of anion control sensor", Korean Patent Gazette Publication No. 2003-0040714, "Illumination apparatus containing an anionic apparatus", Korean utility model registration no. 20-0269942, "3-Wavelength lamp where anions are dissipated from the housing side surface", Korean utility model registration no. 20-0298324, "Illumination apparatus with generation of anioniozone", Korean Open Patent Gazette Publication No. 10-2004-0026719, "Air purification lamp with generation of plasma", Korean utility model registration no. 20-0310587, "Il¬ lumination lamp having a cartridge type anion generator", and Korean utility model registration no. 20-0334566, "3-Wavelength lamp furnished with anion generation and air purification functions". [4] Even though the above mentioned prior inventions have differences in con¬ figuration from one another, they have respective conformations provided to attain air purification effect along with illumination effect by integrally furnishing anion generation unit within lamp or other illumination appliances. [5] If product made to have additional function of room air cleaning by integrally furnishing small anion generator within illumination apparatus of lamp or other il¬ lumination appliances as above would be circulated in market with high merchan- dizability and salability, practicability elements of manufacturability to combine small anion generator within illumination apparatus, design, usability, convenience, economy, air cleaner efficiency etc. are to be considered with very high relative importance. [6] For example, however excellent the indoor air purification efficiency will be for product integrally furnished with small anion generation apparatus in illumination apparatus, if productivity is low and production cost is high so that sale price is expensive, then commodity competitiveness of illumination apparatus itself falls down. And even though other pragmatic elements are satisfactory, if externity design is coarse by large volume of illumination apparatus, poor appearance shape etc., this case will also lose competitiveness as merchandizability drops down. [7] In accordance with the above reasons, as the compact bulb type fluorescence lamp is energy conservation equipment and has conformation where it is essentially furnished with, in interior of its body, small stabilizer circuit (which is mainly electronic)to enlighten fluorescent bulb after being applied of alternating current power supply from electric bulb connected to socket which stabilizer circuit is mounted on printed circuit board of flat plate type to be contained in body made of lower and upper assembly type container of certain volumetric capacity, accordingly in case when it is integrally combined with ion generator which needs electric power supply circuit by essential furnishing with electronic voltage generation circuit, firstly manufacturability is made very convenient because it is made feasible to facilitate anion generator power cord connection work along with electric power line connection with electric bulb base in the containing assembly process of stabilizer substrate in compact bulb type flu¬ orescence lamp body, secondly usability is made convenient because user may control operation electricity power supply of small anion generator at same time by compact bulb type fluorescence lamp electricity power supply switch operation, and thirdly economy is enhanced because both manufacturing cost is made low and electric power to be used is extremely low, so that in fact the above integral combination product is employed to be most desirable product among comparative illumination lamps and appliances to add air cleaner function by integral equipping of small anion generator. [8] The above listed prior inventions are offered to clean room air by anion generator operation at same time with compact bulb type fluorescence lamp use in accordance with integral equipping of anion generator within bulb type fluorescence lamp whereas those have many problems in practice because those employ formation to equip anionic voltage generator of anion generator within fluorescence lamp body as their common device in configuration to achieve the above purpose. [9] Most previous inventions list above have problems of practicalization difficulty and inability to vest high merchandizability because of compact bulb type fluorescence lamp body enlargement, design restrictions, difficult assembling manufacturability, rise of manufacturing cost owing to stabilizer substrate re-design necessity and increase of manufacturing cost of mold, non-applicability at small slim compact bulb type fluorescence lamp, worry about trouble failure cause and performance dete¬ rioration of electronic stabilizer circuit of fluorescent lamp owing to proximity mounting of electronic stabilizer circuit of bulb type fluorescence lamp and anionic voltage generator part module, necessity of additional mounting of shield unit apparatus, etc. [10] Recently by technical development, there have been presented small anion generators made as a separate minimal type member connected by only the said voltage generation part and voltage line while employing minimal brush type electricity discharge member made of metal fiber, carbon fiber or metal alloy superfine thread material so that electric discharge member pole has configuration to diminish the applied voltage and to maximize anion generation increase wherewith anionic volt age generation part (including electric supply part) configuration is modularized by using minimal type electronic parts. [11] Practicalization and integration of anion generator within compact bulb type flu¬ orescence lamp has been more facilitated as high-efficiency small anion generators having the recently supplied anionic voltage generation part module of such con¬ figuration (hereinafter abbreviated as modular anion generators) have merits of inex- pensiveness, low electric power consumption type, and excellent air cleaner efficiency while they are supplied as mini type where specific dimensions of anionic voltage generation part module which is main component member are so small as to be able to be contained in tube type case of about 14.6 πwaφ and 30 mm length. [12] As for a method to be able to integrally equip without change of specifications and design of outward body appearance by means of utilizing both the point that anionic voltage generation part module is minimal type and the point that anionic discharge member is also minimal type to be drawn out by fine voltage line following the charac¬ teristics of said recently offered modular anion generator, configuration may be fa¬ cilitated by citing a part formation of anion generator installation structure publicized by Korean utility model registration no. 20-0334566. [13] For example in case of an example of bulb type fluorescence lamp 40 having some reserved space in volumetric capacity of lower body 42 as in Figure 1, it can be realized into such an example of modular anion generator installation structure 50 of bulb type fluorescence lamp where anionic voltage generator part module 31 of modular anion generator is laid fixed downward against electric bulb base 49 beneath center of fluorescence lamp stabilizer substrate 41 mounted in lower body 42 and several fluorescence lamp stabilizer circuit parts 44 are relocated around said module 31 while modular anion generator voltage cord integrally attached of brush type anion electricity discharge member 35 at its end is vertically installed by voltage cord support tube 33 throughout center of upper plate of upper body 43 unto inner terminal in central axis line of fluorescent bulbs 47. [14] According to the above configured example of modular anion generator installation structure 50 of bulb type fluorescence lamp, because there is somewhat leisure in volumetric capacity of lower body 42 so as to be able to integrally mount anionic voltage generator part module 31 with fluorescence lamp stabilizer substrate 41, anionic voltage generator module 31 may be integrally accommodated within fluorescent lamp body without change of specifications or of design of fluorescence lamp body as well as there may be given other merits firstly to be able to induce air cleaner efficiency also to definite design value by satisfying characteristics of anionic discharge member of the higher the rate of contact with air the higher the anion generation efficiency and secondly of beautiful outward appearance of equipment by means of positioning the upper end of anionic discharge member at inside of upper end of fluorescent bulbs 47. [15] But the above example of modular anion generator installation structure 50 of bulb type fluorescence lamp has problem of proximity to nonapplicability in cases of small compact bulb type fluorescence lamp of both duplex spiral model and quadruplet tube model of fluorescence bulb wherewith fluorescence lamp bottom body is of superslim outward appearance design similar to quasiconic type along with differentiated flu¬ orescence bulb design within scope of a kind of bulb type fluorescence lamp which are recent high merchandizability bulb type fluorescence lamps as there are design change restriction and product cost rise factor. [16] I the applicant of this patent applies other invention patent to solve problems and and to adopt merits of the above example of modular anion generator installation structure 50 of bulb type fluorescence lamp using said minimal modular anion generator. [17] Invention provided by me the applicant of this patent as other separate patent ap¬ plication item is an exemplary modular anion generator installation structure 50a by mode of integration with fluorescent lamp body of compact bulb type fluorescence lamp as applied to an exemplary compact bulb type fluorescence lamp of quadruplet tube model 40a wherein a leisure space part of definite volumetric capacity is effected at center part of upper plate of upper body 43a of fluorescent lamp by fluorescent bulb configuration where several reverse U type fluorescence bulbs 47a are laid out in cir¬ cumferential format at brink of upper plate of upper body 43a of fluorescence lamp as in example conformation of Figure 2 and Figure 3. [18] This configuration is formation where has been furnished electric discharge member support hole 52a which supports the anionic discharge member 35 of brush type at top of centerline of module housing 51a which pole is constituent member of modular anion generator and is exposed up via voltage cord 34 while said module housing 51a is downward open type and is formed in integral structure with upper plate of upper body 43a of fluorescence lamp with its projection to definite height at center part of upper plate of upper body 43a of fluorescence lamp and has certain distance from inner edges of bulb support holes and has capacity closely accommodating inside itself the anionic voltage generator module 31a which is main constituent member of modular anion generator to be mounted against central part of upper plate of upper body 43a of fluorescence lamp whereas electric supply cords 32 of anionic voltage generator part drawn out to bottom of anionic voltage generator part module 31a are wired parallel with electric supply cords of fluorescence lamp stabilizer substrate 41 mounted on lower body 42a of fluorescent lamp. [19] According to the above described example of mounting structure 50a of modular anion generator unit apparatus of compact bulb type fluorescence lampof mode of in¬ tegration with fluorescent lamp body, anion generator unit may be manufactured at one time with main function fluorescence lamp unit into a single part material by injection molding of upper body 43a of fluorescent lamp because this production method is feasible if extremely minimal part only of upper or lower metal molds to mold out central part of upper plate because said module housing 51a is formed as integrated structure with upper plate of upper body 43a in the inner central space of fluorescence bulb of quadruplet tube model existing as vacant space in compact bulb type flu¬ orescence lamp 40a of quadruplet tube model. [20] Therefore this invention configuration has characteristics: [21] firstly, in integrally mounting modular anion generator within compact bulb type fluorescence lamp, anion generator unit may be mounted by very simple assembling process without any change of either fluorescence lamp stabilizer circuit or layout on substrate, [22] secondly, anion generator unit may be easily accommodated without any change of design or specifications of upper and lower bodies 43a and 42a of bulb type flu¬ orescence lamp of quadruplet tube model 40a, [23] and thirdly, realization may be executed both inexpensively and with high pro¬ ductivity without either a separate mold design of high cost or a manufacturing cost input. [24] And as may be understood with Figure 3, firstly a relatively wide space part is formed circumferentially on plan section view into inside of end part of 4 units of reverse U type fluorescence bulbs each interval among respective 4 units of reverse U type fluorescence bulbs has also been formed wide so that here is achieved lively air flow around anionic discharge member 35 even if anionic discharge member 35 is installed beneath upper port terminal at inner central part of fluorescent bulbs 47a so as to be able to attain quick and high efficiency air cleaner effect according to high air contact rate, and secondly here may be achieved another characteristic of elegant outward appearance as anionic discharge member 35 terminal is accommodated within inner central part of quadruplet fluorescent bulbs 47a. [25] But if anionic discharge member installation configuration in the above described example of mounting structure 50a of modular anion generator unit apparatus of compact bulb type fluorescence lamp of mode of integration with fluorescent lamp body is applied, as it is as above, to doule spiral bulb type fluorescence lamp, then outward appearing stability feeling and beauty sense deteriorates if to maximize air contact rate while this air contact rate will fall if to ameliorate outward appearance so as to contain problem of drop of air purification speed or efficiency. [26] In Figure 4 and Figure 5 is depicted other practice example of mounting structure 50b of modular anion generator unit apparatus of compact bulb type fluorescence lamp where technical conformation of the above described example of mounting structure 50a of modular anion generator unit apparatus of compact bulb type fluorescence lamp of mode of integration with fluorescent lamp body has been applied at example of doule spiral bulb type fluorescence lamp 40b where example of doule spiral flu¬ orescence bulb 47b is placed around circumference of upper plate brink of upper body 43b of fluorescent lamp. [27] In comparison for structural aspect of mounting configuration with aforementioned example of mounting structure 50a of modular anion generator unit apparatus of compact bulb type fluorescence lamp, this configuration is different in only two points, so firstly that bulb type fluorescence lamp form applies in this case at bulb type flu¬ orescence lamp 40b having doule spiral-type fluorescence bulb 47b and secondly that anionic discharge member installation position is somewhat different from former, whereas firstly apparatus units of bulb base 49 assembled at fluorescence lamp body, fluorescence lamp stabilizer substrate 41, and stabilizer circuit part 44 are same as in former practice example and secondly this mounting structure 50b has also same con¬ figuration as in former practice example to be practiced for electric and structural mounting configuration of both module housing and modular anion generator; while module housing 51b furnished in this configuration example has formation where said module housing 51b is to be formed by cylindrical upward projection in inner center of semicircular cross-sectional bulb support tubes 431 432 that are firstly divided by respective halves of semicircular arcs at upper plate brink of upper body 43b of fluorescent lamp and secondly inclined to be symmetric with each other whereas brush type anionic discharge member 35 that has been pulled out from electric discharge member support hole 52b through voltage cord 34 has been installed at proximity to bottom of S-type start point tube 471 which is uppermost member of doule spiral flu- orescence bulb 47b. [28] According to this second example of mounting structure 50b of modular anion generator unit apparatus of compact bulb type fluorescence lamp applied at the above described doule spiral bulb type fluorescence lamp 40b as may be understood with total section view Figure 5, here is problem that contact rate with external air is low and anion generation efficiency is low so that air purification speed is low because periphery of anionic discharge member 35 is blocked both by S-type start point tube 471 which is uppermost member of doule spiral fluorescence bulb 47b and by spiral bulbs coiled by narrow interval between each up and down turns although said discharge member 35 is not easily seen from outside so as to give merit of good appearance. [29] Third example of mounting structure 50c of modular anion generator unit apparatus of compact bulb type fluorescence lamp applied at doule spiral bulb type fluorescence lamp 40b depicted in Figure 6 and Figure 7 may be proposed as configuration to solve problem of second example of mounting structure 50b of modular anion generator unit apparatus of compact bulb type fluorescence lamp applied at such as the above doule spiral bulb type fluorescence lamp 40b. [30] In comparison to second example of mounting structure 50b of modular anion generator unit apparatus of compact bulb type fluorescence lamp applied at doule spiral bulb type fluorescence lamp 40b depicted in Figure 4 and Figure 5, this third example configuration performs same for all constituent elements and mounting structure except anionic discharge member installation position so as to be performed that this pole is to be exposed outward through an opening between crescent upper openings 473 and 474 at left and right formed between inside edge of cylindrical doule spiral fluorescence bulb and left and right of S-type start point tube 471 which is uppermost member of doule spiral-type fluorescent bulb 47b. [31] If according to the above third example of mounting structure 50c of modular anion generator unit apparatus of compact bulb type fluorescence lamp applied at doule spiral bulb type fluorescence lamp 40b, then because installation is made to suffice contact with external air without blocking by peripheral spiral fluorescent bulb 47a or by S-type start point tube 471 which is uppermost member of doule spiral-type fluorescent bulb 47b so that air contact rate is enhanced and anion generation rate is heightened so as to give merit of high air purification rate. [32] But this configuration is such that anionic discharge member 35a is exposed to outside of bulb lopsidedly at only one opening side between two crescent upper openings 473 and 474 at left and right formed between inside edge of cylindrical doule spiral fluorescence bulb and left and right ends of S-type start point tube 471 which is uppermost member of doule spiral-type fluorescent bulb 47b so that this configuration lacks stability feeling and esthetic sense is deteriorated wherefore here may come problem to act as a factor rather to impede merchandizability in case when applied at doule spiral bulb type fluorescence lamp 40b enjoying high merchandizability as firstly this is differentiated from ordinary vertical type bulbs due to doule spiral-type fluorescent bulb 47b, secondly this has low stature, and thirdly this boasts slimmerized beautiful outward appearance design. [33] Then here can be proposed configuration to locate anionic discharge member 38 end below each middle side of upper openings 473 and 474 whereas here cannot be solved problem of insufficient contact rate with outside air, low anion generation rate, and accordingly low air purification speed almost equivalently to configuration where anionic discharge member 35 has been installed at proximity to bottom of S-type start point tube 471 which is uppermost member of doule spiral fluorescence bulb 47b in the aforementioned second example of mounting structure 50b of modular anion generator unit apparatus of compact bulb type fluorescence lamp if we consider in this case that top view cross-section of upper openings 473 and 474 in small doule spiral-type fluorescent bulb 47b of ordinarily 20 Watt grade has narrow cross-section area structure of slit shape of media width within 7-10 mm and of length within 20-24 mm. [34] Disclosure of Invention Technical Problem [35] This invention is presented to solve problems accompanied by applying the afore¬ mentioned exemplified improved mounting structure of modular anion generator proposed to solve problems contained in aforementioned traditional prior inventions, at configurations integrally equipped with anionic voltage generator part module of modular anion generator within upper body of doule spiral bulb type fluorescence lamp, so that first purpose of this invention is to provide a mounting structure of anion generator electricity discharge member of doule spiral bulb type fluorescence lamp where anionic discharge member installation structure not only has outward appearance that is stable and does not harm sense of beauty of fluorescent bulb but also may achieve high air cleaner efficiency. [36] Second purpose of this invention is to provide solution of problems accompanied by applying the aforementioned exemplified improved mounting structure of modular anion generator proposed to solve problems contained in aforementioned traditional prior inventions, at configurations integrally equipped with anionic voltage generator part module of modular anion generator by projection type module housing on upper plate of upper body of doule spiral bulb type fluorescence lamp, so as to provide a mounting structure of anion generator electricity discharge member of doule spiral bulb type fluorescence lamp where anionic discharge member installation structure not only has outward appearance that is stable and does not harm sense of beauty of fluorescent bulb but also may achieve high air cleaner efficiency. [37] Technical Solution [38] Anion generator electricity discharge member installation structure of doule spiral bulb type fluorescence lamp of this invention to achieve the above first purpose is characterized by formation configuration to contain anionic voltage generator part module of modular anion generator within doule spiral bulb type fluorescence lamp body as for anionic discharge member drawn out by voltage cord from said anionic voltage generator part module where voltage cord shall be supported by fine support tube from center of upper plate of upper body of fluorescent lamp up to position of proximity to bottom of S-type start point tube which is uppermost member of doule spiral fluorescence bulb whereas 2 strands of electric discharge member respectively supported by 2 voltage cords shall be arrayed by V type separation at top of said support tube to be installed respectively near each center of two crescent upper openings at left and right formed between inside edge of cylindrical doule spiral flu¬ orescence bulb and left and right ends of S-type start point tube which is uppermost member of doule spiral-type fluorescent bulb. [39] Anion generator electricity discharge member installation structure of doule spiral bulb type fluorescence lamp of this invention to achieve the above second purpose is characterized by formation configuration to contain anionic voltage generator part module of modular anion generator by projection type module housing installed at top surface of upper plate of upper body of doule spiral bulb type fluorescence lamp as for anionic discharge member drawn out by voltage cord from top of module housing containing the said anionic voltage generator part module where the said anionic discharge member shall be actually made into 2 strands respectively supported by 2 voltage cords in V type to be installed respectively near each center of two crescent upper openings at left and right formed between inside edge of cylindrical doule spiral fluorescence bulb and left and right ends of S-type start point tube which is uppermost member of doule spiral-type fluorescent bulb. [40] Advantageous Effects [41] According to the above described configuration of this invention in practicalization of technology realization to donate additional function of air room cleaning by integral equipping of anion generator within doule spiral bulb type fluorescence lamp, there can be solved problem to have been unable to satisfy two conditions at same time by means of conventional single pole type anion electricity discharge member installation structure due to structural characteristics of doule spiral-type fluorescent bulb of doule spiral-type compact fluorescence lamp one of which conditions is high efficiency of air cleaner function and other of which conditions is elegant appearance of product so that here may be provided doule spiral bulb type fluorescence lamp with additional function of room air cleaning with high practicality. [42] Particularly with new technique of accommodating anionic voltage generator part module if applied at doule spiral bulb type fluorescence lamp model which is dif¬ ferentiated in form from ordinary vertical tube type bulbs due to its doule spiral flu¬ orescence bulb and has high merchandizability owing both to its low stature and to its slimmerized beautiful outward appearance design, there may also be accommodated its merit to be able to integrally equip anion generator with only very convenient, stable and inexpensive addition of manufacturing cost without at all any change of outward appearance design of fluorescent bulb and appliance body so as to donate one level higher sale competitiveness than other models of compact bulb type fluorescence lamp so that there is attained effect to heighten merchandizability by one degree. [43] Brief Description of the Drawings [44] Figure 1 : example of traditional mounting structure of electric discharge member of modular anion generator unit apparatus of compact bulb type fluorescence lamp. [45] Figure 2: total section view where example of traditional installation structure of electric discharge member of modular anion generator unit apparatus of compact bulb type fluorescence lamp of quadruplet tube model has been practiced. [46] Figure 3: top view of bulb side of example of traditional installation structure of electric discharge member of modular anion generator unit apparatus of compact bulb type fluorescence lamp of quadruplet tube model. [47] Figure 4: top view of bulb side of example of traditional installation structure of electric discharge member of modular anion generator unit apparatus of compact bulb type fluorescence lamp of duplex spiral model. [48] Figure 5: total section view where example of traditional installation structure of electric discharge member of modular anion generator unit apparatus of compact bulb type fluorescence lamp of duplex spiral model has been practiced. [49] Figure 6: total section view where other example of traditional installation structure of electric discharge member of modular anion generator unit apparatus of compact bulb type fluorescence lamp of duplex spiral model has been practiced. [50] Figure 7: top view of bulb side of other example of traditional installation structure of electric discharge member of modular anion generator unit apparatus of compact bulb type fluorescence lamp of duplex spiral model. [51] Figure 8: top view of bulb side of realization example of this invention in in¬ stallation structure of electric discharge member of modular anion generator unit apparatus of compact bulb type fluorescence lamp of duplex spiral model. [52] Figure 9: total section view where realization example of this invention in in¬ stallation structure of electric discharge member of modular anion generator unit apparatus of compact bulb type fluorescence lamp of duplex spiral model has been practiced. [53] Figure 10: total section view where other realization example of this invention in in¬ stallation structure of electric discharge member of modular anion generator unit apparatus of compact bulb type fluorescence lamp of duplex spiral model has been practiced. [54] Figure 11 : top view of bulb side of other realization example of this invention in in¬ stallation structure of electric discharge member of modular anion generator unit apparatus of compact bulb type fluorescence lamp of duplex spiral model. [55] Best Mode for Carrying Out the Invention [56] Best modes to practice this invention may be explained as follows with reference to appended drawings. [57] In Figure 8 and Figure 9 are depicted assembly cross-section view and assembly top view of realization example of this invention in installation structure 60a of electric discharge member of anion generator unit apparatus of compact bulb type fluorescence lamp of duplex spiral model applied at example of doule spiral bulb type fluorescence lamp 40b where doule spiral fluorescence bulb 47b has been placed around cir¬ cumference of upper plate brink of upper body 43b of fluorescent lamp. [58] The above realization example of anion generator electricity discharge member in¬ stallation structure 60a of doule spiral bulb type fluorescence lamp has same re¬ alization configuration in accommodating and containing anionic voltage generator part module 3 Ia of anion generator by module 5 Ib at center part of upper plate of upper body 43b of fluorescent lamp in comparison with aforementioned example of anion generator electricity discharge member installation structure 50b of doule spiral bulb type fluorescence lamp depicted in Figure 4 and Figure 5. [59] Different point is formation configuration where 2 strands of anionic discharge member voltage cords 34a and 34b are supported after respectively pulling out in V type from anionic voltage generator part module 31a contained in said module housing 51b at upper ends of which cords 34a and 34b there are furnished 2 electricity discharge members 35b and 35c of which each top end shall be set at proximity to each center part of two crescent upper openings 473 and 474 at left and right formed between inside edge of cylindrical bulb of said doule spiral-type fluorescent bulb 47b and left and right ends of S-type start point tube 471 which is uppermost member of doule spiral-type fluorescent bulb. [60] According to the above other realization example of this invention in installation structure 60a of electric discharge member of anion generator unit apparatus of compact bulb type fluorescence lamp of duplex spiral model, 2 anionic discharge members 35b and 35c are not exposed outside of doule spiral-type fluorescent bulb 47b so as to give merit of apparent elegance while anion generation efficiency is greatly enhanced due to doubled air contact rate so that there can be attained quick high efficiency of air cleaner effect because 2 brush type anion electricity discharge members 35b and 35c at left and right are installed up to proximity of each central part of two crescent upper openings 473 and 474 at left and right formed between inside edge of cylindrical bulb of doule spiral-type fluorescent bulb 47b and left and right ends of uppermost S-type start point tube 471. which is uppermost member of doule spiral-type fluorescent bulb. [61] These desirable effects, when compared to configuration of traditional installation structure 50b of electric discharge member of anion generator unit apparatus of compact bulb type fluorescence lamp of duplex spiral model where single anion electricity discharge member 35 is installed at proximity of bottom of topmost S-type start point tube 471 in Figure 4 and Figure 5, can solve disadvantageous problem of slow air purification speed and low efficiency while retaining advantage of apparent elegance. [62] And when compared with traditional installation structure 50c of electric discharge member of anion generator unit apparatus of compact bulb type fluorescence lamp of duplex spiral model which has configuration where single anion electricity discharge member 35a is used whose terminal is exposed outward through either side of crescent upper openings 473 and 474 at left and right of doule spiral-type fluorescent bulb 47b, this invention can solve problem of both giving sense of instability and having poor appearance in outside view owing to disadvantage of external exposure of electric discharge member while on other hand maintaining its advantage of quick high efficiency of air cleaner effect by high air contact rate. [63] In Figure 10 and Figure 11 are depicted assembly cross-section view and assembly top view of other realization example of this invention in installation structure 60b of electric discharge member of anion generator unit apparatus of compact bulb type flu¬ orescence lamp of duplex spiral model applied at example of doule spiral bulb type flu¬ orescence lamp 40b where doule spiral fluorescence bulb 47b has been placed around circumference of upper plate brink of upper body 43b of fluorescent lamp. [64] In comparison with aforementioned realization example of this invention in in¬ stallation structure 60a of electric discharge member of anion generator unit apparatus of compact bulb type fluorescence lamp of duplex spiral model, the above other re¬ alization example of this invention in installation structure 60b of electric discharge member of anion generator unit apparatus of compact bulb type fluorescence lamp of duplex spiral model has same configuration in point that here also are furnished 2 electric discharge members 35b and 35c respectively supported by 2 voltage cords 34c and 34d in V type and each end of these poles 35b and 35c is installed in proximity to each center part of two crescent upper openings 473 and 474 at left and right formed between inside edge of cylindrical bulb of said doule spiral-type fluorescent bulb 47b and left anf right ends of uppermost S-type start point tube 471. [65] Different point in realization configuration is that installation configuration of anionic voltage generator part module from which the above 2 voltage cords 34a and 34b are pulled out is type of anionic voltage generator part module 31 mounted on stabilizer substrate 41 within lower body 43a of fluorescent lamp as disclosed in traditional example of installation structure 50 of electric discharge member of anion generator unit apparatus of compact bulb type fluorescence lamp depicted in Figure 1 while electric discharge member voltage cord is supported by fine electric discharge member support tube 33 supported at upper plate center of upper body 43b of fluorescent lamp beginning from said anionic voltage generator part module 31 up to said 2 voltage cords 34c and 34d. [66] According to this other realization example of installation structure 60b of electric discharge member of anion generator unit apparatus of compact bulb type fluorescence lamp of duplex spiral model, here is given installation structure of 2 brush type anion electricity discharge members 35b and 35c at left and right in same manner as con¬ figuration of the above realization example of realization example of this invention in installation structure 60a of electric discharge member of anion generator unit apparatus of compact bulb type fluorescence lamp of duplex spiral model so as to achieve same effect and to attain advantage to be usefully executed also in other kind of electric bulb type fluorescence lamp where anionic voltage generator part module accommodation structure is executed in lower body of fluorescent lamp. [67] The above explained various realization examples of this invention suggest preferable practice examples of this invention whereas configuration of this invention is not certainly limited within said examples. [68] For example configuration of anionic discharge member in practicing this invention can attain same effect even when anionic discharge member of other form or material than brush type electricity discharge member would be used and said configuration can also apply same technical configuration to attain same performance effect even when there would come case of configuration difference in accommodating anionic voltage generator part module of modular anion generator or when there would come case of different form of module housing integrally equipped upon upper plate of upper body of fluorescent lamp. [69] And device to support anionic discharge member from module housing in other re¬ alization example of this invention may additionally use a separate support tube for more stable maintenance of bending form beside using the said configuration utilizing voltage cord free of its own bending and form maintenance.

Claims

Claims [1] Anion generator unit apparatus electricity discharge member installation structure of double spiral-type compact fluorescence lamp characterized by con¬ figuration to contain anionic voltage generator part module of modular anion generator within doule spiral-type compact fluorescence body as for anionic discharge member drawn out by voltage cord from said anionic voltage generator part module where voltage cord shall be supported by fine support tube from center of upper plate of upper body of fluorescent lamp up to position of proximity to bottom of S-type start point tube which is uppermost member of doule spiral-type fluorescence bulb whereas 2 strands of electric discharge member respectively supported by 2 voltage cords shall be arrayed by V type separation at top of said support tube to be installed respectively near each center of two crescent upper openings at left and right formed between inside edge of cylindrical doule spiral fluorescence bulb and left and right ends of S-type start point tube which is uppermost member of doule spiral-type fluorescent bulb. [2] Anion generator unit apparatus electricity discharge member installation structure of double spiral-type compact fluorescence lamp characterized by con¬ figuration to contain anionic voltage generator part module of modular anion generator by projection type module housing installed at top surface of upper plate of upper body of doule spiral-type compact fluorescence lamp as for anionic discharge member drawn out by voltage cord from top of module housing containing the said anionic voltage generator part module where the said anionic discharge member shall be actually made into 2 strands respectively supported by 2 voltage cords in V type to be installed respectively near each center of two crescent upper openings at left and right formed between inside edge of cylindrical doule spiral fluorescence bulb and left and right ends of S- type start point tube which is uppermost member of doule spiral-type fluorescent bulb.