CN217636070U - Empty gas detection surveys physics and purifies lamp - Google Patents
Empty gas detection surveys physics and purifies lamp Download PDFInfo
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- CN217636070U CN217636070U CN202221360375.5U CN202221360375U CN217636070U CN 217636070 U CN217636070 U CN 217636070U CN 202221360375 U CN202221360375 U CN 202221360375U CN 217636070 U CN217636070 U CN 217636070U
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Abstract
The utility model relates to an empty gas detection surveys physics and purifies lamp, including active carbon, lamps and lanterns bottom plate, lamps and lanterns apron, light source module and optical assembly be equipped with on the active carbon and run through the mounting hole of the relative both sides face of active carbon, light source module and optical assembly install in the mounting hole, optical assembly is located the light-emitting side of light source module and with the light source module is connected, lamps and lanterns bottom plate and lamps and lanterns apron are installed respectively the relative both ends of mounting hole and respectively with the light source module is connected, the lamps and lanterns apron is located optical assembly place side. The lamp body of the utility model adopts the active carbon, and the physical characteristics of the active carbon are utilized to remove indoor harmful substances, purify indoor air, solve the pollution problem of indoor formaldehyde and harmful substances with low cost, and provide comfortable illumination for human; simultaneously, lamps and lanterns bottom plate, lamps and lanterns apron, light source module and optical component detachable install in the active carbon for the active carbon can be changed wantonly.
Description
Technical Field
The utility model relates to an intelligence house technical field, more specifically relates to an empty gas detection surveys physics and purifies lamp.
Background
Along with the development of society, environmental problems become more serious, and along with the development of industrial informatization, severe gases such as formaldehyde, dust, haze, bacteria and the like follow, and the invisible killers hidden by people are one of serious causes of leukemia.
The present germicidal lamp on the market is mainly an ultraviolet germicidal lamp, which has the following problems: 1. the ultraviolet lamp is mainly used for disinfection and sterilization, does not have the function of removing formaldehyde, and cannot remove formaldehyde; 2. ultraviolet rays are harmful to human bodies, and people in a room are prevented from being irradiated to the greatest extent when the ultraviolet rays are used. If the photocatalyst construction is carried out, the ultraviolet lamp can accelerate the decomposition and the removal of formaldehyde. For example, techniques such as coating formaldehyde remover, photocatalyst and the like are utilized to remove formaldehyde by chemical reaction, although the formaldehyde removing agent has an effect, harmful byproducts can be generated, and the byproducts can be harmful to human health for a long time; 3. the ultraviolet germicidal lamp cannot visually detect the indoor air quality.
Disclosure of Invention
The utility model discloses an overcome sterilamp among the prior art and exist can not remove formaldehyde, ultraviolet ray harmful to the human body, accelerated decomposition remove probably produce harmful accessory substance behind the formaldehyde, can not visual detection indoor air quality scheduling problem, provide an empty gas detection surveys physics and purifies lamp.
The utility model provides an empty gas detection surveys physics and purifies lamp, includes active carbon, lamps and lanterns bottom plate, lamps and lanterns apron, light source module and optical assembly be equipped with on the active carbon and run through the mounting hole of the relative both sides face of active carbon, light source module and optical assembly install in the mounting hole, optical assembly is located the light-emitting side of light source module and with the light source module is connected, lamps and lanterns bottom plate and lamps and lanterns apron are installed respectively the relative both ends of mounting hole and respectively with the light source module is connected, lamps and lanterns apron is located the optical assembly place side.
Further, as a preferred technical scheme, the light source module comprises an LED light source assembly, an indicator light assembly and a light source mounting bracket, the LED light source assembly is mounted on the upper end face of the light source mounting bracket, the indicator light assembly is mounted on the upper end face of the light source mounting bracket and located outside the LED light source assembly, and the lamp base plate, the lamp cover plate and the optical assembly are respectively connected with the light source mounting bracket.
Further, as a preferred technical scheme, a first mounting groove is formed in the upper end face of the light source mounting support, the LED light source assembly is mounted in the first mounting groove, the indicator light assembly is mounted outside the first mounting groove, a first mounting structure is arranged on the inner side wall of the first mounting groove, a second mounting structure is arranged on the outer wall of the light source mounting support, the optical assembly is connected with the first mounting structure, and the lamp cover plate is connected with the second mounting structure.
Further, as a preferred technical solution, the optical assembly includes a first optical element, a second optical element and an annular optical element mounting member, the optical element mounting member is connected to the light source mounting bracket, the first optical element is mounted in the optical element mounting member and corresponds to the LED light source assembly, and the second optical element is sleeved outside the optical element mounting member and is disposed opposite to the indicator light assembly.
Further, as a preferable technical scheme, a first mounting part is arranged on the inner wall of the optical element mounting part along the circumference of the inner wall of the optical element mounting part, and the first optical element is erected on the first mounting part; and a first annular clamping table extends towards the inside of the second optical element from the end, opposite to the lamp cover plate, of the second optical element, and the second optical element is sleeved outside the optical element mounting piece and is abutted against the end part of the optical element mounting piece through the first annular clamping table.
Further, as a preferred technical scheme, the lamp cover plate comprises an annular cover plate, the cover plate is respectively abutted against the side face of the activated carbon and the end face of the optical assembly, a first connecting piece extends out of the opposite face of the cover plate to the activated carbon from the mounting hole, and the first connecting piece is sleeved outside the optical assembly and connected with the light source mounting bracket.
Furthermore, as a preferred technical scheme, the lamp further comprises an air quality detection element, wherein a first through hole matched with the air quality detection element is formed in the lamp base plate, and the air quality detection element is installed on the first through hole of the lamp base plate.
Further, as a preferred technical scheme, the air quality detection device further comprises a lamp control assembly, wherein the lamp control assembly is located between the lamp bottom plate and the light source module, the lamp control assembly is fixedly connected with the lamp bottom plate, the lamp control assembly is connected with the light source module, and the air quality detection element is connected with the lamp control assembly.
Further, as a preferred technical scheme, the lamp control assembly comprises a control board, and an interface assembly and a switch assembly which are arranged on the control board, and a second via hole and a third via hole which are respectively matched with the interface assembly and the switch assembly are arranged on the lamp bottom plate.
Further, as a preferred technical scheme, the device also comprises a mounting base, and the activated carbon is mounted on the mounting base.
Compared with the prior art, the utility model discloses technical scheme's beneficial effect is:
the lamp body of the utility model adopts the active carbon, and utilizes the physical characteristics of the active carbon to remove indoor harmful substances, purify indoor air, solve the pollution problem of indoor formaldehyde and harmful substances with low cost, and provide comfortable illumination for human; simultaneously, lamps and lanterns bottom plate, lamps and lanterns apron, light source module and optical component detachable install in the active carbon for the active carbon can be changed wantonly.
The utility model discloses an air quality detecting element who sets up can detect the harmful substance in the air at any time to the pilot lamp subassembly through setting up reacts the air quality, so that the user is concerned with the indoor air quality at any time.
Drawings
Fig. 1 is an explosion diagram of the present invention.
Fig. 2 is an explosion diagram of the present invention.
Fig. 3 is an exploded view of the light source module according to the present invention.
Fig. 4 is an exploded view of the optical assembly of the present invention.
Fig. 5 is a sectional view of the present invention.
Fig. 6 is a schematic view of the rear view structure of the present invention.
Fig. 7 is a schematic view of the structure of the lamp control assembly of the present invention.
Fig. 8 is a schematic view of the structure of the bottom plate of the lamp of the present invention.
Fig. 9 is a schematic view of the cover plate structure of the lamp of the present invention.
Fig. 10 is a schematic view of the structure of the present invention.
Detailed Description
The present invention will be further described with reference to the following embodiments.
The same or similar reference numerals in the drawings of the embodiments of the present invention correspond to the same or similar parts; in the description of the present invention, it should be understood that if there are terms such as "upper", "lower", "left", "right", "top", "bottom", "inner", "outer", etc., indicating orientations or positional relationships based on the orientations or positional relationships shown in the drawings, the description is merely for convenience and simplicity of description, and it is not intended to indicate or imply that the devices or elements being referred to must have a specific orientation, be constructed and operated in a specific orientation, and therefore, the terms describing the positional relationships in the drawings are for illustrative purposes only and are not to be construed as limiting the present patent.
Furthermore, if the terms "first," "second," and the like are used for descriptive purposes only, they are used for mainly distinguishing different devices, elements or components (the specific types and configurations may be the same or different), and they are not used for indicating or implying relative importance or quantity among the devices, elements or components, but are not to be construed as indicating or implying relative importance.
Example 1
The embodiment provides an air detection physical purification lamp for solving the problems that an ultraviolet sterilization lamp in the prior art cannot remove formaldehyde, ultraviolet rays are harmful to human bodies, harmful byproducts are possibly generated after the formaldehyde is removed through accelerated decomposition, indoor air quality cannot be visually detected and the like.
The embodiment discloses an empty gas detection surveys physics and purifies lamp, as shown in fig. 1-2: the lamp comprises activated carbon 1, a lamp bottom plate 2, a lamp cover plate 3, a light source module 4, an optical assembly 5 and a mounting base 8; be equipped with the mounting hole 11 that runs through 1 relative both sides face of active carbon on active carbon 1, light source module 4 and optical assembly 5 are installed in mounting hole 11, optical assembly 5 is located the light-emitting side of light source module 4 and is connected with light source module 4, lamps and lanterns bottom plate 2 and lamps and lanterns apron 3 are installed respectively at the relative both ends of mounting hole 11 and are connected with light source module 4 respectively, lamps and lanterns apron 3 are located 5 places of optical assembly, be equipped with second mounting groove 81 on installation base 8, active carbon 1 is installed in the second mounting groove 81 of installation base 8, make things convenient for placing of lamps and lanterns.
In this embodiment, the lamp bottom plate 2, the lamp cover plate 3, the light source module 4 and the optical assembly 5 are detachably mounted in the activated carbon 1, so that the activated carbon 1 can be replaced at will.
In addition, in this embodiment, this active carbon 1 adopts waterproof high density active carbon, and it possesses the functions such as the micropore is flourishing, and mechanical strength is high, and adsorption rate is fast, and the purification degree is high, is difficult for the gumming, long service life to make the purification lamp of this embodiment can realize physics nature air-purifying, ensure the healthy comfortable of human settlements environment.
The present embodiment specifically discloses the structures of the light source module 4 and the optical assembly 5.
In the present embodiment, the light source module 4 is shown in fig. 3: the LED lamp comprises an LED light source assembly 41, an indicating lamp assembly 42 and a light source mounting bracket 43, wherein the LED light source assembly 41 is mounted on the upper end face of the light source mounting bracket 43, the indicating lamp assembly 42 is mounted on the upper end face of the light source mounting bracket 43 and is positioned outside the LED light source assembly 41, and the lamp bottom plate 2, the lamp cover plate 3 and the optical assembly 5 are respectively connected with the light source mounting bracket 43. The indicator light assembly 42 employs a traffic light.
Specifically, a first mounting groove 431 is provided on the upper end surface of the light source mounting bracket 43, the led light source assembly 41 is mounted in the first mounting groove 431, and the indicator light assembly 42 is mounted outside the first mounting groove 431, that is, the indicator light assembly 42 is disposed along the circumference of the light source module 4.
In addition, a first mounting structure 432 is disposed on the inner side wall of the first mounting groove 431, a second mounting structure 433 is disposed on the outer wall of the light source mounting bracket 43, the optical assembly 5 is connected to the first mounting structure 432, and the lamp cover 3 is connected to the second mounting structure 433.
As a preferred embodiment, the first mounting structure 432 is a first annular groove formed along an inner sidewall of the first mounting groove 431, in which the optical assembly 5 is detachably mounted, and the second mounting structure 433 is a second annular groove formed along a circumference of an outer wall of the light source mounting bracket 43, in which the lamp cover 3 is detachably mounted.
The optical assembly 5 is shown in fig. 4: the LED lamp comprises a first optical element 51, a second optical element 52 and an annular optical element mounting piece 53, wherein the optical element mounting piece 53 is connected with the light source mounting bracket 43, the first optical element 51 is mounted in the optical element mounting piece 53 and corresponds to the LED light source assembly 41, and the second optical element 52 is sleeved outside the optical element mounting piece 53 and is arranged opposite to the indicator light assembly 42.
Specifically, a first mounting portion 531 is arranged on the inner wall of the optical element mounting member 53 along a circumference of the inner wall of the optical element mounting member 53, the first optical element 51 is mounted on the first mounting portion 531, the first mounting portion 531 is close to the end, opposite to the lamp cover plate 3, of the optical element mounting member 53, in order to enable the first optical element 51 to be mounted stably, a second annular clamping table 533 is extended into the optical element mounting member 53 from the end, opposite to the lamp cover plate 3, of the optical element mounting member 53, and the first optical element 51 is limited through the second annular clamping table 533; a first annular clamping table 521 extends into the second optical element 52 at the end of the second optical element 52 opposite to the lamp cover plate 3, and the second optical element 52 is sleeved outside the optical element mounting part 53 and is abutted against the end of the optical element mounting part 53 through the first annular clamping table 521.
In addition, a second mounting portion 532 is provided at an opposite end of the optical element mounting member 53 from the light source mounting bracket 43, and the second mounting portion 532 is detachably fitted into the first mounting structure 432, thereby mounting and dismounting the optical unit 5.
In this embodiment, the first optical element 51 is a lens with anti-glare and waterproof functions, and the second optical element 52 is a light guide member with a light guide function made of a translucent material; first installation department 531 is a plurality of ka tai that set up along optical element installed part 53 inner wall a week, and second installation department 532 is a plurality of buckles that set up along optical element installed part 53 outer wall a week, realizes portable installation and dismantlement.
Example 2
On the basis of embodiment 1, this embodiment further optimizes a control structure of empty gas detection surveys physics purification lamp in order to overcome the ultraviolet germicidal lamp among the prior art and exist the problem that can not directly perceivedly detect indoor air quality, realize intelligent control etc.
In this embodiment, as shown in FIGS. 1-2, 7-8: the physical purification lamp for air detection also comprises an air quality detection element 6 and a lamp control component 7, wherein the air quality detection element 6 is connected with the lamp control component 7, and the lamp control component 7 is connected with the light source module 4; the air quality detection element 6 is arranged on the lamp bottom plate 2, the lamp control component 7 is positioned between the lamp bottom plate 2 and the light source module 4, and the lamp control component 7 is fixedly connected with the lamp bottom plate 2.
In this embodiment: the mounting structure of the air quality detection element 6 specifically comprises: the lamp bottom plate 2 is provided with a first through hole 21 matched with the air quality detection element 6, and the air quality detection element 6 is installed on the first through hole 21 of the lamp bottom plate 2 from the inside of the lamp bottom plate 2 and extends out of the lamp bottom plate 2 to realize contact with air.
The lamp control assembly 7 comprises a control board 71, and an interface assembly 72 and a switch assembly 73 which are arranged on the control board 71, meanwhile, a switch key 74 matched with the switch assembly 73 is arranged on the switch assembly 73, and a second via hole 22 and a third via hole 23 matched with the interface assembly 72 and the switch assembly 73 are arranged on the lamp bottom plate 2.
The mounting structure of the lamp control assembly 7 is specifically as follows: the opposite surface of the lamp base plate 2 to the lamp control component 7 is provided with a first mounting column 26, and the control plate 71 is fixedly connected with the lamp base plate 2 through the first mounting column 26.
After the control board 71 is fixedly installed, the interface component 72 extends to the second through hole 22, so that the purification lamp can be charged conveniently, and the switch button 74 arranged on the switch component 73 extends out of the third through hole 23, so that the purification lamp can be controlled to be switched on and off conveniently, as shown in fig. 5-6.
In this embodiment, the purification lamp is controlled to be turned on and off through the switch button 74, the interface component 72 is used for realizing the charging function, the air quality condition is detected through the air quality detection element 6, and the detected air quality condition is reflected by controlling the indicator lamp component 42 through the lamp control component 7, so that the user can pay attention to the indoor air quality at any time. For example, the control light assembly 42 displays a red light indicating air quality pollution, and the control light assembly 42 displays a green light indicating air quality excellence. And intelligent control is realized.
Example 3
On the basis of embodiment 1, the present embodiment further discloses a mounting structure of a lamp bottom plate 2 and a lamp cover plate 3 of the air detection physical purification lamp in order to realize the replacement of the activated carbon 1.
In this embodiment, as shown in fig. 8, a limiting ring 24 that can be inserted into the mounting hole 11 extends from an opposite surface of the lamp base plate 2 to the activated carbon 1, an end surface of the limiting ring 24 abuts against the light source mounting bracket 43, in addition, a second mounting column 25 is disposed on an opposite surface of the lamp base plate 2 to the lamp control component 7, and the lamp base plate 2 is fixedly connected to the light source mounting bracket 43 through the second mounting column 25; and the first mounting post 26 and the second mounting post 25 are located in the stop collar 24.
The lamp cover plate 3 is shown in fig. 9: including the annular apron 31 that is of area decoration clamping ring frame, apron 31 offsets with the terminal surface of 1 side of active carbon and optical assembly 5 respectively, extend first connecting piece 32 in the relative facial mounting hole 11 of apron 31 and active carbon 1, tip at first connecting piece 32 is equipped with third installation department 321, first connecting piece 32 cover is established outside optical assembly 5 and can be dismantled with light source installing support 43 through third installation department 321 that can imbed in the second ring channel and be connected, realize the demountable installation of lamps and lanterns apron 3, the purification lamp after the installation is as shown in fig. 10.
It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement or improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.
Claims (10)
1. The utility model provides an empty gas detection surveys physics and purifies lamp, its characterized in that includes active carbon (1), lamps and lanterns bottom plate (2), lamps and lanterns apron (3), light source module (4) and optical assembly (5) be equipped with on active carbon (1) and run through mounting hole (11) of the relative both sides face of active carbon (1), install light source module (4) and optical assembly (5) in mounting hole (11), optical assembly (5) are located the light-emitting side of light source module (4) and with light source module (4) are connected, lamps and lanterns bottom plate (2) and lamps and lanterns apron (3) are installed respectively the relative both ends of mounting hole (11) and respectively with light source module (4) are connected, lamps and lanterns apron (3) are located optical assembly (5) place side.
2. The physical purification lamp for air detection as claimed in claim 1, wherein the light source module (4) comprises an LED light source assembly (41), an indicator light assembly (42) and a light source mounting bracket (43), the LED light source assembly (41) is mounted on the upper end face of the light source mounting bracket (43), the indicator light assembly (42) is mounted on the upper end face of the light source mounting bracket (43) and located outside the LED light source assembly (41), and the lamp base plate (2), the lamp cover plate (3) and the optical assembly (5) are respectively connected with the light source mounting bracket (43).
3. An air detection physical purification lamp as claimed in claim 2, wherein a first installation groove (431) is provided on the upper end surface of the light source installation bracket (43), the LED light source assembly (41) is installed in the first installation groove (431), the indicator light assembly (42) is installed outside the first installation groove (431), a first installation structure (432) is provided on the inner side wall of the first installation groove (431), a second installation structure (433) is provided on the outer wall of the light source installation bracket (43), the optical assembly (5) is connected with the first installation structure (432), and the lamp cover plate (3) is connected with the second installation structure (433).
4. The air detection physical purification lamp according to claim 3, wherein the optical assembly (5) comprises a first optical element (51), a second optical element (52) and an annular optical element mounting member (53), the optical element mounting member (53) is connected with the light source mounting bracket (43), the first optical element (51) is mounted in the optical element mounting member (53) and corresponds to the LED light source assembly (41), and the second optical element (52) is sleeved outside the optical element mounting member (53) and is opposite to the indicator light assembly (42).
5. An air detection physical purification lamp as claimed in claim 4, wherein a first mounting part (531) is arranged on the inner wall of the optical element mounting part (53) along one circle of the inner wall of the optical element mounting part (53), and the first optical element (51) is arranged on the first mounting part (531); a first annular clamping table (521) extends into the second optical element (52) from the end, opposite to the lamp cover plate (3), of the second optical element (52), and the second optical element (52) is sleeved outside the optical element mounting piece (53) and is abutted against the end of the optical element mounting piece (53) through the first annular clamping table (521).
6. The air detection physical purification lamp according to claim 2, wherein the lamp cover plate (3) comprises a ring-shaped cover plate (31), the cover plate (31) abuts against the side surface of the activated carbon (1) and the end surface of the optical assembly (5), a first connecting piece (32) extends out of the cover plate (31) and the activated carbon (1) facing the mounting hole (11), and the first connecting piece (32) is sleeved outside the optical assembly (5) and connected with the light source mounting bracket (43).
7. The physical purification lamp for air detection as claimed in claim 1, further comprising an air quality detection element (6), wherein a first through hole (21) matched with the air quality detection element (6) is formed on the lamp bottom plate (2), and the air quality detection element (6) is mounted on the first through hole (21) of the lamp bottom plate (2).
8. The physical purification lamp for air detection according to claim 7, further comprising a lamp control component (7), wherein the lamp control component (7) is located between the lamp base plate (2) and the light source module (4), the lamp control component (7) is fixedly connected with the lamp base plate (2), the lamp control component (7) is connected with the light source module (4), and the air quality detection element (6) is connected with the lamp control component (7).
9. The air detection physical purification lamp according to claim 8, wherein the lamp control component (7) comprises a control board (71), and an interface component (72) and a switch component (73) which are arranged on the control board (71), and a second via hole (22) and a third via hole (23) which are respectively matched with the interface component (72) and the switch component (73) are arranged on the lamp base plate (2).
10. The physical purification lamp for air detection according to claim 1, further comprising a mounting base (8), wherein the activated carbon (1) is mounted on the mounting base (8).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202221360375.5U CN217636070U (en) | 2022-05-31 | 2022-05-31 | Empty gas detection surveys physics and purifies lamp |
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Application Number | Priority Date | Filing Date | Title |
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CN202221360375.5U CN217636070U (en) | 2022-05-31 | 2022-05-31 | Empty gas detection surveys physics and purifies lamp |
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CN217636070U true CN217636070U (en) | 2022-10-21 |
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CN202221360375.5U Active CN217636070U (en) | 2022-05-31 | 2022-05-31 | Empty gas detection surveys physics and purifies lamp |
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