CN117759898A - Full spectrum lighting lamp with mobile calibration function - Google Patents

Abstract

The invention discloses a full spectrum lighting lamp with a mobile calibration function, which belongs to the technical field of lighting lamps.

Description

Full spectrum lighting lamp with mobile calibration function

Technical Field

The invention relates to the technical field of lighting fixtures, in particular to a full-spectrum lighting fixture with a mobile calibration function.

Background

A full spectrum lighting fixture is a lighting device capable of simulating sunlight, which can emit light rays containing the whole visible spectrum and a part of infrared and ultraviolet light, so that the lighting environment is more similar to natural light. Compared with the traditional LED lamp, the full-spectrum lighting lamp can provide more real and full light, and has positive influence on human vision and physiological health. The full spectrum lighting lamp is widely applied to indoor lighting, plant growth lighting, medical fields and the like.

The full-spectrum lighting lamp is widely applied to plant growth lighting and is suitable for modern greenhouse planting. At present, an LED light source technology is used for simulating a full spectrum, and different light sources are adopted to form an illumination environment simulating natural light. The full spectrum is realized by adopting a single light source technology, the spectrum is fixed, the color temperature condition which can be realized by the same light source is fixed and not adjustable, the application requirement of variable color temperature cannot be met, the matching with the photosynthetic absorption spectrum of the plant is not ideal, and the requirement of the plant on other wavelengths cannot be met.

For this reason, we propose a full spectrum lighting fixture with a mobile calibration function for the above-mentioned problems.

Disclosure of Invention

Compared with the prior art, the invention provides a full spectrum lighting lamp with a mobile calibration function, the full spectrum lighting lamp provided by the invention has the advantages that the lamp group I and the lamp group II with different light emitting modules are arranged, the irradiation light with full spectrum characteristics meeting the variable color temperature is obtained after various lights are mixed, the rotatable movable dimming component is additionally arranged, when spectrum adjustment is needed, the full spectrum adjustment instruction is executed according to the current lighting requirement, the combination type and the number of corresponding lamp beads between the lamp group II and the lamp group I are realized, the annular cover is driven to rotate through the annular electric sliding rail, the dimming component corresponding to the lamp group I with different colors is changed, the light transmitting piece is rotationally covered below the lamp group to carry out light transmission adjustment through the driving structure, and different spectrum lighting is provided for each planting stage of a planting object through combination collocation.

The aim of the invention can be achieved by the following technical scheme:

the full spectrum lighting lamp with the mobile calibration function comprises a lamp holder fixedly installed in a lamp shade, wherein two lamp strips are installed at the bottom end of the lamp holder from outside to inside, a plurality of first lamp groups are annularly distributed at the bottom ends of the two lamp strips, a lamp panel is fixedly installed at the middle position of the lamp holder, and a second lamp group is installed at the bottom end of the lamp panel;

a light-transmitting plate is fixedly arranged on the bottom end face of the lampshade, two annular covers which correspond to the positions of the lamp bands respectively are arranged at the top end of the lamp holder in a sliding manner, the inner top wall of the lampshade is fixedly provided with two annular electric sliding rails which are respectively connected with the top end of the annular cover, and the bottom end wall of each annular cover is fixedly connected with a plurality of dimming components which are matched with one position and the number of the lamp groups;

the dimming component comprises an upper limiting cover and a lower sliding cover which are arranged up and down, the upper limiting cover is fixed on the inner top wall of the annular cover, a movable cavity is reserved between the lower sliding cover and the upper limiting cover, an annular cavity with one end open is formed in the upper limiting cover, a light-transmitting sheet is arranged in the annular cavity in a sliding mode, a driving structure for vertically overturning the light-transmitting sheet is arranged in the movable cavity, and an arc-shaped penetrating groove corresponding to the opening position is formed in the end wall of the inner side of the lamp holder.

Further, the second lamp set is a white light lamp bead, the first lamp set is a red light lamp bead, a blue light lamp bead, an infrared lamp bead and an ultraviolet lamp bead which are distributed in a staggered mode, the second lamp set and the plurality of lamp strips are controlled by a plurality of paths of power supplies respectively and independently, so that a single spectrum can be used, and a plurality of kinds of lamps can be combined to be used for illuminating different plants in a specific spectrum.

Further, the bottom end wall of the lamp holder is embedded with a light reflecting layer, the light reflecting layer is made of a light reflecting aluminum plate with the percentage of reflectivity, the intensity and the irradiation area of light emitted by the first lamp group and the second lamp group are concentrated, and the illumination effect is effectively improved.

Further, the lower sliding cover and the upper limiting cover are of arc structures which are arranged on the upper end face of the lamp holder in a concentric mode, and the axial leads of the lower sliding cover and the upper limiting cover are located at the central position right above the lamp band, so that when the driving structure is used for driving the light-transmitting sheet to overturn towards the lower end face of the lamp holder, the light-transmitting sheet can cover the lamp group on the lower end face of the lamp band in a ring mode.

Furthermore, each light-transmitting sheet is of an arc-shaped structure matched with the upper limiting cover in shape, and the end face of each light-transmitting sheet is coated with a light-transmitting film.

Furthermore, the light-transmitting sheet is made of a high-transparency material, the light-transmitting films are made of polycarbonate materials, the light-transmitting films are different in color and light transmittance, the thickness of the light-transmitting films is-mm, the light-transmitting films with different colors and light transmittance are utilized to adapt to the first lamp group with different colors, the whole color, the brightness and the light intensity of the illuminating lamp can be adjusted, the different light-transmitting films can filter light rays with specific wavelengths or strengthen the light rays with specific wavelengths, and therefore the spectrum of illuminating lamp light is changed and is used for spectrum adjustment and calibration.

Further, the driving structure comprises a first electromagnetic seat, a second electromagnetic seat and a magnetic sliding sheet, wherein the first electromagnetic seat and the second electromagnetic seat are fixedly arranged at the left end and the right end of the movable cavity, the magnetic sliding sheet is slidably arranged in the movable cavity, the end wall in the upper limiting cover is provided with a groove which is matched with the magnetic sliding sheet and is communicated with the annular cavity, the inner end of the magnetic sliding sheet penetrates through and is fixedly connected to the light-transmitting sheet, the first electromagnetic seat and the second electromagnetic seat are intermittently opened and closed to realize the left-right movement of the magnetic sliding sheet in the movable cavity, and when a spectrum needs to be regulated, the second electromagnetic seat is started to close the first electromagnetic seat, the magnetic sliding sheet is driven to move towards one side of the opening by virtue of the magnetic attraction effect of the second electromagnetic seat on the magnetic sliding sheet, and the free end of the light-transmitting sheet penetrates through the arc groove-penetrating cover and is arranged below the first lamp set, so that the spectrum emitted by the first lamp set is regulated.

Optionally, the electromagnetic seat three is fixedly installed on the inner top end wall of the lower sliding cover, a plurality of first through grooves are formed in the electromagnetic seat three, second through grooves which are matched with the first through grooves in a staggered mode are formed in the magnetic sliding sheet, the electromagnetic seat three is additionally arranged between the electromagnetic seat one and the electromagnetic seat two, when spectrum adjustment is needed, the electromagnetic seat one is closed, the electromagnetic seat three and the electromagnetic seat two are synchronously opened, the electromagnetic seat three and the electromagnetic seat two are firstly utilized to conduct magnetic attraction sliding on the magnetic sliding sheet, the electromagnetic seat three is disconnected when the magnetic sliding sheet moves to the electromagnetic seat three, at this time, the magnetic sliding sheet is magnetically attracted and slid by the electromagnetic seat two, and the magnetic sliding sheet is easier to slide left and right in the movable cavity.

Optionally, the annular inlays on the lamp shade outer end wall and establishes and install a plurality of fin that run through to its inside, a plurality of the fin is located between lamp area and the light-transmitting board, adds a plurality of annular distributed fin, is favorable to evenly outwards giving off the heat in the lamp shade.

Optionally, a spectrum calibration panel connected with the second lamp group, the first lamp group, the annular electric sliding rail and the driving structure is further installed on the lamp shade, and a full spectrum regulation instruction is preprogrammed in the spectrum calibration panel.

Compared with the prior art, the invention has the advantages that:

(1) According to the scheme, the first lamp group and the second lamp group with different light emitting modules are arranged on the lamp holder, the irradiation light with full spectrum characteristics and with variable color temperature is obtained after various lights are mixed, the annular cover which moves annularly and is provided with a plurality of dimming components is additionally arranged above the lamp holder, when spectrum adjustment is needed, according to the current illumination requirements, the type of combination between the first lamp group and the second lamp group and the selection of the quantity of corresponding lamp beads are realized by executing the full spectrum adjustment instruction, meanwhile, the current light intensity control of the selected lamp bead combination is executed, the annular cover is driven to move annularly through the annular electric sliding rail, the dimming components corresponding to the lamp groups with different colors are changed, the rotary cover of the light transmitting sheet is arranged below the lamp group to conduct light transmission adjustment through the driving structure, the spectrum adjustment range is further enlarged through combination collocation, and different spectrum illumination is provided for each planting stage of a planting object by utilizing color temperature adjustability.

(2) The driving structure in this scheme comprises electromagnetic seat one and electromagnetic seat two of relative setting, install electromagnetic seat three between the two and the magnetism slide that is connected with the printing opacity piece, when needing to carry out the spectral adjustment, close electromagnetic seat one, open electromagnetic seat three, electromagnetic seat two in step, at first utilize electromagnetic seat three to carry out magnetism to the magnetism slide and inhale the slip, when the magnetism slide moves to electromagnetic seat three, cut off electromagnetic seat three, at this moment, rely on electromagnetic seat two to carry out magnetism to the magnetism slide again and inhale the slip, through magnetism to inhale sliding fit, the side-to-side slip of more easily magnetism slide in the movable chamber realizes the upset from top to bottom of printing opacity piece, and the driving structure of each subassembly department of adjusting luminance is controlled by this full spectrum regulation and control instruction, carry out selective drive rotation to the printing opacity piece of a plurality of subassembly departments of adjusting luminance, change the spectrum that corresponding lamp group one sent, match through the combination, further enlarge spectral adjustment scope.

Drawings

Fig. 1 is a schematic diagram of a structure of a lamp cover of the present invention when being detached from a light-transmitting plate;

FIG. 2 is a schematic diagram of the structure of the present invention;

FIG. 3 is a schematic view of the structure of the light-transmitting plate of the present invention after being detached;

fig. 4 is a schematic diagram of a lamp shade according to the present invention when the lamp shade is detached from the lamp base;

fig. 5 is a schematic diagram II of the structure of the lamp shade of the present invention when the lamp shade is detached from the lamp base;

FIG. 6 is a schematic view of the annular cover of the present invention when detached from the lamp base;

fig. 7 is a schematic view of a structure of a dimming component of the present invention;

fig. 8 is a split view of the dimming component of the present invention;

FIG. 9 is a partial enlarged view of the junction of the dimmer pack and the lamp base according to the present invention;

fig. 10 is a partial enlarged view of a junction between a dimming component and a lamp socket according to the present invention.

The reference numerals in the figures illustrate:

1. a lamp shade; 2. a lamp holder; 201. arc-shaped through grooves; 3. a light strip; 4. a first lamp group; 5. a lamp panel; 6. a second lamp group; 7. an annular cover; 8. annular electric slide rail; 9. a dimming component; 91. a lower sliding cover; 92. an upper limit cover; 93. a light transmitting sheet; 94. a magnetic slider; 95. an electromagnetic seat I; 96. an electromagnetic seat II; 97. an electromagnetic seat III; 10. a light-transmitting plate; 11. a heat sink.

Detailed Description

The drawings in the embodiments of the present invention will be combined; the technical scheme in the embodiment of the invention is clearly and completely described; obviously; the described embodiments are only a few embodiments of the present invention; but not all embodiments, are based on embodiments in the present invention; all other embodiments obtained by those skilled in the art without undue burden; all falling within the scope of the present invention.

Example 1:

the invention discloses a full spectrum lighting lamp with a mobile calibration function, referring to fig. 1-3, which comprises a lamp holder 2 fixedly arranged in a lamp shade 1, wherein two lamp strips 3 are arranged at the bottom end of the lamp holder 2 from outside to inside, a plurality of lamp groups I4 are annularly distributed at the bottom ends of the two lamp strips 3, a lamp plate 5 is fixedly arranged at the middle position of the lamp holder 2, a lamp group II 6 is arranged at the bottom end of the lamp plate 5, a light-transmitting plate 10 is fixedly arranged on the bottom end surface of the lamp shade 1, the light-transmitting plate 10 adopts a composite acrylic plate, and has good light transmittance and uniform light scattering effect, and high transparency and soft light irradiation can be realized;

the lamp group II 6 is white light lamp pearl, the red light lamp pearl of a plurality of lamp groups I4 for crisscross distribution respectively, blue light lamp pearl, infrared lamp pearl and ultraviolet lamp pearl, lamp group II 6 and a plurality of lamp area 3 are controlled by multichannel power alone respectively, can single kind spectrum work, also can multiple combination work, for the required specific spectrum illumination of different plants, the bottom wall of lamp stand 2 inlays and installs the reflector layer, the reflector layer is for adopting 95% reflectivity's reflective aluminum plate to make, concentrate intensity and the irradiation area of the light that lamp group I4 and lamp group II 6 sent, effectively improve illumination effect.

Referring to fig. 3-6, the top end of the lamp holder 2 is slidably provided with two annular covers 7 corresponding to the positions of the lamp strips 3, the inner top wall of the lamp cover 1 is fixedly provided with two annular electric sliding rails 8 connected with the top ends of the annular covers 7 respectively, and the bottom end wall of each annular cover 7 is fixedly connected with a plurality of dimming components 9 matched with the positions and the numbers of the first 4 lamp groups;

referring to fig. 6-10, the dimming component 9 includes an upper limiting cover 92 and a lower sliding cover 91 fixedly connected up and down, the upper limiting cover 92 is fixed on an inner top wall of the annular cover 7, a movable cavity is reserved between the lower sliding cover 91 and the upper limiting cover 92, an annular cavity with one end open is formed in the upper limiting cover 92, a light transmitting sheet 93 is slidably mounted in the annular cavity, a driving structure for vertically overturning the light transmitting sheet 93 is mounted in the movable cavity, and an arc-shaped through groove 201 for annularly rotating the light transmitting sheet 93 and corresponding to the opening position is formed in an end wall of the inner side of the lamp holder 2, which is positioned on the lamp band 3.

The lower sliding cover 91 and the upper limiting cover 92 are of arc structures which are arranged at the same center and are arranged on the upper end face of the lamp holder 2, the axes of the lower sliding cover 91 and the upper limiting cover 92 are positioned at the center position right above the lamp strip 3, so that when the driving structure is used for driving the light-transmitting sheet 93 to overturn towards the lower end face of the lamp holder 2, the light-transmitting sheet 93 can cover the lamp group I4 on the lower end face of the lamp strip 3 in an annular mode, each light-transmitting sheet 93 is of an arc structure matched with the shape of the upper limiting cover 92, the end face of the light-transmitting sheet 93 is coated with a light-transmitting film, the light-transmitting sheet is made of a high transparent material, the light-transmitting film is made of a polycarbonate material, the light-transmitting films are different in color and light transmittance, the thickness is 1-2mm, the light-transmitting films with different colors are utilized to be matched with the lamp group I4 with different colors, the different light-transmitting films can be used for adjusting the color, the brightness and the light intensity of a lighting lamp, the different light with a specific wavelength can be filtered or the light with a specific wavelength can be enhanced, and the light spectrum of the lighting light is changed, and the light is used for adjusting and calibrating;

the dimming components 9 on the annular cover 7 can rotate and move along the upper end surface of the lamp holder 2 in an annular mode under the action of the annular electric sliding rail 8, the positions of the dimming components 9 corresponding to the lamp groups 4 with different colors are changed, the spectrum adjusting combination range is expanded, and after the dimming components 9 with different colors and light transmittance rotate to the lamp groups 4 with corresponding colors, the light transmitting sheet 93 is driven to rotate to the lower portion of the lamp groups 4 through the driving structure, and light emitted by the lamp groups 4 is adjusted.

Referring to fig. 1, a plurality of heat dissipation fins 11 penetrating into the lamp cover 1 are embedded in the outer end wall of the lamp cover 1 in an annular manner, the plurality of heat dissipation fins 11 are located between the lamp strip 3 and the light-transmitting plate 10, and the plurality of heat dissipation fins 11 distributed in an annular manner are additionally arranged, so that heat in the lamp cover 1 can be uniformly dissipated outwards.

Example 2:

the present embodiment describes the driving structure in detail based on embodiment 1, specifically as follows:

referring to fig. 7-10, the driving structure includes a first electromagnetic seat 95 and a second electromagnetic seat 96 fixedly mounted at left and right ends of the movable cavity, and a magnetic sliding plate 94 slidably mounted in the movable cavity, wherein 921 matched with the magnetic sliding plate 94 and communicated with the annular cavity is formed on an inner end wall of the upper limit cover 92, an inner end of the magnetic sliding plate 94 penetrates 921 and is fixedly connected to the light-transmitting plate 93, and the left and right movement of the magnetic sliding plate 94 in the movable cavity is realized by intermittently opening and closing the first electromagnetic seat 95 and the second electromagnetic seat 96;

in the initial state, electromagnetic seat one 95 starts, electromagnetic seat two 96 closes, rely on electromagnetic seat one 95 to the magnetism effect of inhaling of magnetism slide 94 for magnetism slide 94 keeps away from opening one side setting, light-transmitting sheet 93 is accomodate in the ring channel, when needs carry out the adjustment spectrum, start electromagnetic seat two 96, close electromagnetic seat one 95, rely on electromagnetic seat two 96 to the magnetism effect of inhaling of magnetism slide 94, make magnetism slide 94 drive light-transmitting sheet 93 to opening one side motion, light-transmitting sheet 93 free end runs through arc through groove 201 and covers the below of locating lamp group one 4, thereby adjust the spectrum that sends by lamp group one 4, and the annular cover 7 of installing a plurality of dimming components 9 can carry out annular rotation along annular electronic slide rail 8, remove the position of dimming component 9, thereby change the dimming component 9 that the lamp group one of different colours corresponds, through the collocation of combination, further enlarge spectrum adjustment range.

The electromagnetic seat III 97 is fixedly arranged on the inner top end wall of the lower sliding cover 91, a plurality of first through grooves are formed in the electromagnetic seat III 97, second through grooves which are matched with the first through grooves in a staggered mode are formed in the magnetic sliding sheet 94, the electromagnetic seat III 97 is additionally arranged between the electromagnetic seat I95 and the electromagnetic seat II 96, when spectrum adjustment is needed, the electromagnetic seat I95 is closed, the electromagnetic seat III 97 and the electromagnetic seat II 96 are synchronously opened, the magnetic sliding sheet 94 is firstly magnetically attracted and slid by the electromagnetic seat III 97, the electromagnetic seat III 97 is disconnected when the magnetic sliding sheet 94 moves to the electromagnetic seat III 97, and at the moment, the magnetic sliding sheet 94 is magnetically attracted and slid by the electromagnetic seat II 96, so that the magnetic sliding sheet 94 can slide left and right in the movable cavity more easily.

In addition, it is to be added that the lamp shade 1 is also provided with a spectrum calibration panel connected with the lamp group II 6, the lamp group I4, the annular electric sliding rail 8 and the driving structure, and a full spectrum regulation and control instruction is preprogrammed in the spectrum calibration panel, and the using method of the full spectrum lighting lamp with the mobile calibration function is as follows: in an initial state, the light transmitting sheets 93 on the light adjusting assemblies 9 are stored in the annular grooves of the upper limiting cover 92, when the light spectrum needs to be adjusted, according to the current lighting requirements, the full-spectrum adjusting and controlling instruction is executed to realize the selection of the types of the combination between the lamp groups II 6 and the lamp group I4 and the quantity of corresponding lamp beads, meanwhile, the current light intensity control of the selected lamp bead combination is executed, the annular cover 7 is driven by the annular electric sliding rail 8 to carry out annular rotary movement, the light adjusting assemblies 9 corresponding to the lamp groups I4 with different colors are changed, the driving structure at each light adjusting assembly 9 is controlled by the full-spectrum adjusting and controlling instruction, the light transmitting sheets 93 at the light adjusting assemblies 9 are selectively driven to rotate, in the process, the light transmitting sheets 93 are rotationally covered below the lamp groups I4 through the driving structure, and the spectrum adjustment at the corresponding required lamp groups I4 is changed, and therefore the spectrum calibration of the full-spectrum lighting lamp is completed.

According to the scheme, the lamp group I4 and the lamp group II 6 with different light emitting modules are arranged on the lamp holder 2, irradiation light with full spectrum characteristics and meeting variable color temperature is obtained after various lights are mixed, the annular cover 7 which is matched with the position of the lamp strip 3 and moves along an annular shape is additionally arranged above the lamp holder 2, a plurality of dimming assemblies 9 which are matched with the position of the lamp group I4 and the number are additionally arranged on the annular cover 7, when spectrum adjustment is needed, according to the current illumination requirement, the full spectrum adjustment instruction is executed to realize the selection of the type of combination between the lamp group II 6 and the lamp group I4 and the number of corresponding lamp beads, and meanwhile, the current light intensity control of the selected lamp bead combination is executed.

The annular cover 7 is driven by the annular electric sliding rail 8 to carry out annular rotation movement, the positions of dimming components 9 corresponding to lamp groups 4 with different colors are changed, driving structures at the dimming components 9 are controlled by the full-spectrum regulation and control instruction, the light-transmitting sheets 93 at the dimming components 9 are selectively driven to rotate, namely, the lamp groups 4 are selectively combined type spectrum regulation, in a single spectrum regulation process, the light-transmitting sheets 93 are rotationally covered below the lamp groups 4 through the driving structures at the positions, the spectrum emitted by the corresponding lamp groups 4 is changed, the spectrum regulation range is further enlarged through combination collocation, and in the whole illumination process, different spectrum illumination is provided for each planting stage of a planting object through the cooperation of regulating illumination color temperature value change and brightness change.

The above; is only a preferred embodiment of the present invention; the scope of the invention is not limited in this respect; any person skilled in the art is within the technical scope of the present disclosure; equivalent substitutions or changes are made according to the technical proposal of the invention and the improved conception thereof; are intended to be encompassed within the scope of the present invention.

Claims (9)

1. Full spectrum lighting lamp with remove calibration function, including fixed mounting lamp stand (2) in lamp shade (1), its characterized in that: two lamp strips (3) are arranged at the bottom end of the lamp holder (2) from outside to inside, a plurality of first lamp groups (4) are annularly distributed at the bottom ends of the two lamp strips (3), a lamp panel (5) is fixedly arranged at the middle position of the lamp holder (2), and a second lamp group (6) is arranged at the bottom end of the lamp panel (5);

a light-transmitting plate (10) is fixedly arranged on the bottom end surface of the lampshade (1), two annular covers (7) which correspond to the positions of the lamp strips (3) respectively are slidably arranged at the top end of the lamp holder (2), two annular electric sliding rails (8) which are connected with the top ends of the annular covers (7) respectively are fixedly arranged on the inner top wall of the lampshade (1), and a plurality of dimming components (9) which are matched with the positions and the numbers of the first lamp groups (4) are fixedly connected with the bottom end wall of each annular cover (7);

the dimming component (9) comprises an upper limiting cover (92) and a lower sliding cover (91) which are arranged up and down, the upper limiting cover (92) is fixed on the inner top wall of the annular cover (7), a movable cavity is reserved between the lower sliding cover (91) and the upper limiting cover (92), an annular cavity with one end open is formed in the upper limiting cover (92), a light-transmitting sheet (93) is slidably arranged in the annular cavity, a driving structure for vertically overturning the light-transmitting sheet (93) is arranged in the movable cavity, and an arc-shaped penetrating groove (201) corresponding to the opening position is formed in the inner end wall of the lamp holder (2) on the inner side end wall of the lamp band (3).

2. The full spectrum lighting fixture with mobile calibration function of claim 1, wherein: the bottom end wall of the lamp holder (2) is embedded with a light reflecting layer, and the light reflecting layer is made of a light reflecting aluminum plate with the reflectivity of 95%.

3. The full spectrum lighting fixture with mobile calibration function of claim 1, wherein: the lower sliding cover (91) and the upper limiting cover (92) are arc-shaped structures which are arranged on the upper end face of the lamp holder (2) in a concentric mode, and the axial leads of the lower sliding cover (91) and the upper limiting cover (92) are located at the central position right above the lamp strip (3).

4. A full spectrum lighting fixture with mobile calibration function as recited in claim 3, wherein: each light-transmitting sheet (93) is of an arc-shaped structure matched with the upper limiting cover (92), and the end face of each light-transmitting sheet (93) is coated with a light-transmitting film.

5. The full spectrum lighting fixture with mobile calibration function of claim 4, wherein: the light-transmitting sheet is made of a high-transparency material, the light-transmitting films are made of a polycarbonate material, and the light-transmitting films are different in color and light transmittance and have the thickness of 1-2mm.

6. The full spectrum lighting fixture with mobile calibration function of claim 1, wherein: the driving structure comprises an electromagnetic seat I (95) and an electromagnetic seat II (96) which are fixedly arranged at the left end and the right end of the movable cavity, and a magnetic sliding sheet (94) which is slidably arranged in the movable cavity, wherein the inner end wall of the upper limiting cover (92) is provided with a section (921) which is matched with the magnetic sliding sheet (94) and is communicated with the annular cavity, and the inner end of the magnetic sliding sheet (94) penetrates through the section (921) and is fixedly connected to the light-transmitting sheet (93).

7. The full spectrum lighting fixture with mobile calibration function of claim 6, wherein: an electromagnetic seat III (97) is fixedly arranged on the inner top end wall of the lower sliding cover (91), a plurality of first through grooves are formed in the electromagnetic seat III (97), and second through grooves which are matched with the first through grooves in a staggered mode are formed in the magnetic sliding piece (94).

8. The full spectrum lighting fixture with mobile calibration function of claim 1, wherein: the lamp shade (1) is characterized in that a plurality of radiating fins (11) penetrating through the lamp shade are embedded in the outer end wall of the lamp shade in an annular mode, and the radiating fins (11) are located between the lamp band (3) and the light-transmitting plate (10).

9. The full spectrum lighting fixture with mobile calibration function of claim 1, wherein: the lamp shade (1) is also provided with a spectrum calibration panel connected with the second lamp group (6), the first lamp group (4), the annular electric sliding rail (8) and the driving structure, and a full spectrum regulation instruction is preprogrammed in the spectrum calibration panel.