CN117148207A - Measuring device for pulse characteristics of eye-protection lamp - Google Patents

Abstract

The invention provides a measuring device for the pulse characteristics of a eye-protection lamp, which relates to the technical field of lamplight characteristic detection and comprises a measuring installation piece, wherein a storage guide piece is arranged on the measuring installation piece; the measuring installation piece is provided with an operation connecting piece; an indirect measurement auxiliary piece is fixedly inserted on the storage guide piece; a lifting guide piece is welded on the storage guide piece; the measuring installation piece is connected with the light detection piece through glue; can realize batching and detect work in batches fast, improve whole detection efficiency, this structure can assist spacing fluorescent tube terminal simultaneously, also use safelyr, avoid electric shock damage, solve current measuring device and adopt the universal meter need detect one by one through binding clip centre gripping contact, consuming time and consume power, the spot check inefficiency, still take place the electric shock accident simultaneously easily, the luminance to light is markd simultaneously and is measured inadequately, the line length that examines of lamps and lanterns, problem with low efficiency.

Description

Measuring device for pulse characteristics of eye-protection lamp

Technical Field

The invention relates to the technical field of lamplight characteristic detection, in particular to a measuring device for pulse characteristics of a eye-protection lamp.

Background

In the production and processing work of the lamp, the pulse characteristics of the lamp are directly related to the stroboscopic effect when the lamp is started, especially for an eye protection lamp, the stroboscopic effect is high in damage to eyes, the eye protection quality can be improved by reasonably controlling the pulse stroboscopic effect of the lamp, at present, spot check detection work is carried out one by one through a universal meter, because the pulse characteristics and the passing voltage of a load (namely the lamp) have a dense and inseparable relation, the method is widely applied, the current measuring device adopts the universal meter to detect through the binding clips one by one to clamp contacts, the time and the labor are consumed, the spot check efficiency is low, meanwhile, electric shock accidents are easy to happen, meanwhile, the brightness calibration measurement for the lamp is not perfect, the measurement cannot be uniformly completed, further transportation and the wire check length of the lamp is needed, and the efficiency is low.

Disclosure of Invention

In view of this, the invention provides a measuring device for pulse characteristics of eye protection lamps, which has a storage guide piece, can realize rapid lamp tube placement, can realize rapid batch detection work, improves the overall detection efficiency, and meanwhile, the structure can assist in limiting lamp tube binding posts, can ensure smooth power connection, ensures test feasibility, automatically connects power, is safer to use and avoids electric shock damage.

The invention provides a measuring device for the pulse characteristics of a eye-protection lamp, which particularly comprises a measuring installation piece, wherein a storage guide piece is arranged on the measuring installation piece; the measuring installation piece is provided with an operation connecting piece; an indirect measurement auxiliary piece is fixedly inserted on the storage guide piece; the indirect measurement auxiliary part is externally connected with a control power supply; the storage guide piece is provided with a movable width adjusting piece; a lifting guide piece is welded on the storage guide piece; the measuring installation piece is connected with the light detection piece through glue; the measurement mount includes: the device comprises a measurement mounting plate, an emission auxiliary inclined plane and a mounting auxiliary hole, wherein the measurement mounting plate is provided with the emission auxiliary inclined plane which is an inclined plane; the four auxiliary mounting holes are formed in the measuring mounting plate.

Further, the operation connector includes: the operation driving motor is arranged on the rotary installation plate frame at the front side; the output shaft of the running driving motor is rotationally connected to the two rotating mounting plate frames; the output shaft of the operation driving motor is fixedly connected with a driving discharge roller; the driving discharge roller is provided with a guide groove, and two sides of the guide groove are chamfered.

Further, the indirect measurement assisting member includes: the device comprises two measurement installation blocks, contact pieces, a power supply connecting wire and an indirect measurement voltmeter, wherein the two measurement installation blocks are respectively fixedly spliced on a storage guide installation box; the two measuring installation blocks are fixedly connected with contact pieces respectively; the contact pieces are respectively electrically connected with the measurement installation blocks; the two measuring and mounting blocks are fixedly connected with a power supply connecting wire respectively; the two power supply connecting wires are respectively externally connected with a power supply; the indirect measurement voltmeter is connected with two measurement installation blocks through a wire; the indirect measurement voltmeter is fixedly connected to the storage guide mounting box.

Further, the measurement mount further includes: the measuring device comprises a measuring mounting plate, a rotating mounting plate frame and a measuring plate, wherein two rotating mounting plate frames are welded on the measuring mounting plate, and through holes are respectively formed in the two rotating mounting plate frames.

Further, the moving width adjusting member includes: the movable width adjusting screw rod is in threaded connection with the storage guide mounting box; the storage guide mounting box is connected with two sliding mounting shafts in a sliding manner, and the two sliding mounting shafts are welded with a movable limiting strip; a groove is formed in the movement limiting strip; the movable limiting strips are in sliding fit with the storage guide mounting box; the movable limiting strip is rotationally connected with a movable width adjusting screw rod; and a hand wheel is arranged on the movable width adjusting screw rod.

Further, the elevation guide further includes: the counterweight pressing block is fixedly connected to the bottom of the lifting control rod; the counterweight pressing block is connected to the storage guide mounting box in a sliding manner.

Further, the stock guide includes: the storage guide mounting box is internally fixedly connected with a limit mounting bar; the storage guide mounting boxes are welded on the two rotating mounting plate frames; the storage guide mounting box is provided with a slotted hole; and two sides of the limit mounting strip are smooth structures.

Further, the elevation guide includes: the installation sliding bar and the lifting control rod are fixedly connected to the storage guide installation box; and the installation sliding bar is connected with a lifting control rod in a sliding manner.

Further, the stock guide further includes: the light-transmitting glass plate is embedded on the storage guide mounting box; the cover buckle arc plate is welded on the front side of the bottom of the storage guide mounting box; the cover buckle arc-shaped plate is of an arc-shaped structure; the cover buckle arc-shaped plate is attached to the driving discharge roller; the cover buckle arc plate is of an elastic sheet type structure.

Further, the light detecting element includes: the device comprises a lamplight detection mounting cover, a brightness control sensor, an alarm control lamp and an alarm controller, wherein the lamplight detection mounting cover is mounted on a storage guide mounting box; the light detection installation cover is internally fixedly connected with a brightness control sensor; an alarm control lamp is arranged on the brightness control sensor; an alarm controller is arranged on the brightness control sensor; the light-transmitting glass plate is positioned in the lamplight detection mounting cover; the alarm controller is electrically connected with the brightness control sensor and the alarm control lamp.

Compared with the prior art, the invention has the following beneficial effects:

1. the device can realize assisting in carrying out material storage work, can realize assisting in guaranteeing detection efficiency, has a simpler and more practical overall structure, can guarantee overall detection efficiency, avoids complex manual operation, effectively improves detection efficiency about lamplight characteristics, and is safer without manual operation power connection.

2. The device can realize assisting in shortening the detection line, has stronger practicability, can effectively reduce the detection cost, can effectively shorten the detection time, utilizes the electric power detected by the electrified pulse to carry out the lighting test, also avoids the electric power waste caused by the follow-up lighting detection, and is more energy-saving.

3. The device has stronger adaptability to the lamp tube, can be quickly adjusted, can realize that the counterweight presses down the lamp tube, ensures stable contact of the lamp tube, ensures the energizing quality, avoids the appearance of energizing ignition and the like, and ensures the accuracy of detection data.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

FIG. 1 is a schematic view of the overall structure of a measuring device of the present invention;

FIG. 2 is a schematic view of the back structure of the measuring device of the present invention;

FIG. 3 is a cross-sectional view of the internal structure of the measuring device of the present invention;

FIG. 4 is a cross-sectional view of an indirect measurement assisting element mounting position of the present invention;

FIG. 5 is a schematic illustration of the measurement mount configuration of the present invention;

FIG. 6 is a schematic view of a storage guide structure of the present invention;

FIG. 7 is a schematic view of an indirect measurement assisting member of the present invention;

FIG. 8 is a schematic view of a moving width adjuster of the present invention;

FIG. 9 is an enlarged view of the structure of area C of FIG. 1 in accordance with the present invention;

fig. 10 is a schematic view of the structure of the elevation guide of the present invention.

List of reference numerals

1. Measuring the mounting member; 101. a measurement mounting plate; 1011. an emission auxiliary inclined surface; 1012. installing an auxiliary hole; 102. rotating the mounting plate frame; 2. operating the connecting piece; 201. operating a driving motor; 202. driving the discharge roller; 203. a guide groove; 3. a storage guide; 301. storage guiding and installing box; 302. a limit mounting bar; 303. a light-transmitting glass plate; 304. a cover buckle arc plate; 4. an indirect measurement aid; 401. measuring a mounting block; 4011. a contact piece; 402. a power supply connection line; 403. indirectly measuring a voltmeter; 5. moving the width adjusting member; 501. moving a width adjusting screw rod; 502. a sliding mounting shaft; 503. moving a limit bar; 6. a light detecting member; 601. a light detection mounting cover; 602. a brightness control sensor; 603. an alarm control lamp; 604. an alarm controller; 7. a lifting guide; 701. installing a sliding bar; 702. a lifting control rod; 703. and (5) a counterweight pressing block.

Detailed Description

In order to make the objects, aspects and advantages of the technical solution of the present invention more clear, the technical solution of the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings of the specific embodiment of the present invention. Unless otherwise indicated, terms used herein have the meaning common in the art. Like reference numerals in the drawings denote like parts.

Embodiment one: please refer to fig. 1 to 10:

the invention provides a measuring device for pulse characteristics of a eye-protection lamp, which comprises a measuring installation piece 1, wherein a storage guide piece 3 is arranged on the measuring installation piece 1; the measuring installation piece 1 is provided with an operation connection piece 2; an indirect measurement auxiliary piece 4 is fixedly inserted on the storage guide piece 3; the indirect measurement auxiliary piece 4 is externally connected with a control power supply; the storage guide 3 is provided with a moving width adjusting piece 5; a lifting guide piece 7 is welded on the storage guide piece 3; the measuring installation piece 1 is connected with the light detection piece 6 through glue; the measurement mount 1 includes: the measuring device comprises a measuring mounting plate 101, an emission auxiliary inclined plane 1011 and a mounting auxiliary hole 1012, wherein the emission auxiliary inclined plane 1011 is arranged on the measuring mounting plate 101, and the emission auxiliary inclined plane 1011 is arranged as an inclined plane; four mounting auxiliary holes 1012 are provided, and the four mounting auxiliary holes 1012 are respectively formed in the measurement mounting plate 101.

Wherein the measurement mount 1 further comprises: the measuring device comprises a rotating mounting plate frame 102, wherein two rotating mounting plate frames 102 are welded on a measuring mounting plate 101, and through holes are respectively formed in the two rotating mounting plate frames 102; the running connector 2 comprises: an operation driving motor 201, a driving discharge roller 202, and a guide groove 203, the operation driving motor 201 being mounted on the rotation mounting plate frame 102 on the front side; an output shaft of the operation driving motor 201 is rotatably connected to the two rotation mounting plate frames 102; the output shaft of the operation driving motor 201 is fixedly connected with a driving discharge roller 202; the driving discharge roller 202 is provided with a guide groove 203, and the two sides of the guide groove 203 are chamfered; the stock guide 3 includes: the storage guide mounting box 301 and the limit mounting bar 302 are fixedly connected with the limit mounting bar 302 inside the storage guide mounting box 301; the storage guide mounting boxes 301 are welded to the two rotating mounting plate frames 102; the storage guide mounting box 301 is provided with a slotted hole; two sides of the limit mounting strip 302 are smooth structures; the stock guide 3 further includes: a light-transmitting glass plate 303 and a cover buckle arc plate 304, wherein the light-transmitting glass plate 303 is embedded on the storage guide mounting box 301; the cover buckle arc plate 304 is welded on the front side of the bottom of the storage guide mounting box 301; the cover buckle arc plate 304 is of an arc structure; the cover button arc plate 304 is attached to the drive discharge roller 202; the cover is detained arc 304 and is elastic sheet type structure, through adopting the storage guide 3 that sets up, can realize assisting carrying out the storage work, can realize assisting guaranteeing detection efficiency, can guarantee holistic detection efficiency, the storage guide 3 that the cooperation set up, can realize assisting carrying out the efficient and rotate the discharge work one by one, and the structure is simpler practical, through adopting spacing installation strip 302, simple structure, play and carry out spacing work to the electric shock post of fluorescent tube, ensure follow-up power on problem, the fluorescent tube can put into guide slot 203 voluntarily, through carrying out the discharge work at operation driving motor 201, overall structure is simpler, can realize assisting carrying out the high-efficient detection work through storage guide 3.

Wherein the indirect measurement assisting member 4 comprises: the two measuring installation blocks 401 are respectively fixedly spliced on the storage guide installation box 301; the two measurement mounting blocks 401 are fixedly connected with contact pieces 4011 respectively; the contact pieces 4011 electrically conduct the measurement mounting blocks 401, respectively; the two measurement mounting blocks 401 are fixedly connected with power supply connecting wires 402 respectively; two power connection wires 402 are respectively externally connected with a power supply; the indirect measurement voltmeter 403 is connected with the two measurement installation blocks 401 through wires; the indirect measurement voltmeter 403 is fixedly connected to the storage guide mounting box 301; the light detection member 6 includes: a light detection mounting cover 601, a brightness control sensor 602, an alarm control lamp 603 and an alarm controller 604, wherein the light detection mounting cover 601 is mounted on the storage guide mounting box 301; a brightness control sensor 602 is fixedly connected inside the lamplight detection mounting cover 601; the brightness control sensor 602 is provided with an alarm control lamp 603; the brightness control sensor 602 is provided with an alarm controller 604; the light-transmitting glass plate 303 is positioned inside the light detection mounting cover 601; alarm controller 604 electric connection luminance control sensor 602 and alarm control lamp 603, through the indirect measurement auxiliary member 4 that adopts the setting, measurement mode is simple, can realize automatic contact switching on and connect the electricity, can realize simultaneously that supplementary light rapid brightness test carries out, further guaranteed structure detection efficiency, need not artifical supplementary transportation and move, can realize supplementary line of examining of shortening, the practicality is stronger, light luminance detects that work is ripe reliable, guarantees whole detection quality, shortens the line of examining, reduce cost.

Embodiment two: on the basis of the first embodiment, the moving width adjusting member 5 includes: the movable width adjusting screw rod 501, the sliding mounting shaft 502 and the movable limiting bar 503 are connected to the storage guide mounting box 301 in a threaded manner; two sliding mounting shafts 502 are connected to the storage guide mounting box 301 in a sliding manner, and a movement limiting bar 503 is welded on the two sliding mounting shafts 502; a groove is arranged on the movement limiting strip 503; the moving limit bar 503 is in sliding fit with the storage guide mounting box 301; a moving width adjusting screw rod 501 is rotatably connected to the moving limiting bar 503; a hand wheel is arranged on the movable width adjusting screw rod 501; the elevation guide 7 includes: a mounting sliding bar 701 and a lifting control lever 702, wherein the mounting sliding bar 701 is fixedly connected to the storage guide mounting box 301; the lifting control rod 702 is connected to the installation sliding bar 701 in a sliding manner; the elevation guide 7 further includes: a counterweight pressing block 703, wherein the counterweight pressing block 703 is fixedly connected to the bottom of the lifting control rod 702; the counterweight pressing block 703 is slidably connected to the storage guide mounting box 301, the moving width adjusting piece 5 can be used for adjusting the width work, the adaptability of the structure can be enhanced, especially, the lamp tube with different lengths can be particularly provided, meanwhile, the adjusting mode is simple, quick driving movement adjustment can be realized, the lifting sliding counterweight can be realized by adopting the lifting guide piece 7, the structure feasibility can be effectively improved, the phenomena that the self weight of the lamp tube is lighter, the downward pressure is insufficient, the lamp tube at the bottom is in virtual connection with the contact sheet 4011 and the like can be avoided, the structure meets the actual requirements more, the practicability is stronger, and the auxiliary pressing work can be realized by matching the downward sliding of the lifting control rod 702 under the gravity extrusion of the counterweight pressing block 703.

Specific use and action of the embodiment: firstly, a storage guide piece 3 is adopted to fill a lamp tube, electric shock posts of the lamp tube are respectively positioned at two sides of a limiting mounting strip 302, the lamp tube can be automatically placed into a guide groove 203 under the action of gravity, a discharge roller 202 is driven to rotate by a driving motor 201 to realize discharge operation of the lamp tube in the guide groove 203, and the lamp tube is discharged through a discharge auxiliary inclined plane 1011; under the gravity extrusion of the counterweight pressing block 703, the counterweight pressing block cooperates with the lifting control rod 702 to slide downwards, so that the auxiliary pressing work can be realized, the auxiliary guarantee that the lamp tubes are pressed down one by one to stably contact the contact sheet 4011 is realized, and the movable limiting strip 503 can be driven to be adjusted to slide to adapt to the width by rotating the movable width adjusting screw 501; in the process that the lamp tubes are discharged one by one, the lamp tubes are sequentially lowered, contact pieces 4011 are realized, auxiliary conduction work is realized, the lamp tube switch is controlled in an auxiliary mode through a power connection wire 402, the lamp tube switch is detected through an in-process observation indirect measurement voltmeter 403, the brightness of the lamp light is detected through a brightness control sensor 602, and if the brightness does not reach the standard, an alarm controller 604 is used for rapidly controlling an alarm control lamp 603 to turn on and give an alarm.

The above is only an exemplary embodiment of the present invention and is not intended to limit the scope of the present invention, which is defined by the appended claims.

Claims (10)

1. The measuring device for the pulse characteristics of the eye protection lamp comprises a measuring mounting piece (1), wherein a storage guide piece (3) is mounted on the measuring mounting piece (1); the measuring device is characterized in that an operation connecting piece (2) is arranged on the measuring installation piece (1); an indirect measurement auxiliary piece (4) is fixedly inserted on the storage guide piece (3); the indirect measurement auxiliary piece (4) is externally connected with a control power supply; a movable width adjusting piece (5) is arranged on the storage guide piece (3); a lifting guide (7) is welded on the storage guide (3); the measuring installation piece (1) is connected with the light detection piece (6) through glue; the measurement mount (1) comprises: the device comprises a measurement mounting plate (101), an emission auxiliary inclined plane (1011) and a mounting auxiliary hole (1012), wherein the emission auxiliary inclined plane (1011) is arranged on the measurement mounting plate (101), and the emission auxiliary inclined plane (1011) is an inclined plane; four mounting auxiliary holes (1012) are formed, and the four mounting auxiliary holes (1012) are respectively formed in the measurement mounting plate (101).

2. The eye-protection lamp pulse characteristic measuring device according to claim 1, wherein: the measurement mount (1) further comprises: and the two rotating installation plate frames (102) are welded on the measuring installation plate (101), and through holes are respectively formed in the two rotating installation plate frames (102).

3. The eye-protection lamp pulse characteristic measuring device according to claim 1, wherein: the operating connection (2) comprises: an operation driving motor (201), a driving discharge roller (202) and a guide groove (203), the operation driving motor (201) being mounted on a rotation mounting plate frame (102) of a front side; an output shaft of the operation driving motor (201) is rotationally connected to the two rotation mounting plate frames (102); an output shaft of the operation driving motor (201) is fixedly connected with a driving discharge roller (202); the driving discharge roller (202) is provided with a guide groove (203), and two sides of the guide groove (203) are chamfered.

4. A device for measuring pulse characteristics of a eye-protecting lamp according to claim 3, wherein: the stock guide (3) comprises: the storage guide mounting box (301) and the limiting mounting strip (302) are fixedly connected with the limiting mounting strip (302) inside the storage guide mounting box (301); the storage guide mounting boxes (301) are welded on the two rotating mounting plate frames (102); the storage guide mounting box (301) is provided with a slotted hole; both sides of the limit mounting strip (302) are smooth structures.

5. The eye-protection lamp pulse characteristic measuring device according to claim 4, wherein: the stock guide (3) further comprises: a light-transmitting glass plate (303) and a cover buckle arc-shaped plate (304), wherein the light-transmitting glass plate (303) is embedded on the storage guide mounting box (301); the cover buckle arc plate (304) is welded on the front side of the bottom of the storage guide mounting box (301); the cover buckle arc-shaped plate (304) is of an arc-shaped structure; the cover buckle arc plate (304) is attached to the driving discharge roller (202); the cover buckle arc plate (304) is of an elastic sheet type structure.

6. The eye-protection lamp pulse characteristic measuring device according to claim 4, wherein: the indirect measurement aid (4) comprises: the device comprises two measurement installation blocks (401), contact pieces (4011), a power supply connecting wire (402) and an indirect measurement voltmeter (403), wherein the two measurement installation blocks (401) are respectively fixedly inserted into a storage guide installation box (301); the two measuring installation blocks (401) are respectively fixedly connected with a contact sheet (4011); the contact pieces (4011) are respectively electrically connected with the measurement mounting blocks (401); the two measuring installation blocks (401) are fixedly connected with power supply connecting wires (402) respectively; the two power supply connecting wires (402) are respectively externally connected with a power supply; the indirect measurement voltmeter (403) is connected with the two measurement installation blocks (401) through wires; the indirect measurement voltmeter (403) is fixedly connected to the storage guide mounting box (301).

7. The eye-protection lamp pulse characteristic measuring device according to claim 4, wherein: the moving width adjusting member (5) includes: the device comprises a movable width adjusting screw rod (501), a sliding mounting shaft (502) and a movable limiting bar (503), wherein the movable width adjusting screw rod (501) is in threaded connection with a storage guide mounting box (301); two sliding mounting shafts (502) are connected to the storage guide mounting box (301) in a sliding manner, and a movable limit bar (503) is welded on the two sliding mounting shafts (502); a groove is formed in the movement limiting strip (503); the movement limiting strip (503) is in sliding fit with the storage guide mounting box (301); a moving width adjusting screw rod (501) is rotatably connected to the moving limiting bar (503); and a hand wheel is arranged on the movable width adjusting screw rod (501).

8. The eye-protection lamp pulse characteristic measuring device according to claim 5, wherein: the light detection member (6) includes: the device comprises a lamplight detection mounting cover (601), a brightness control sensor (602), an alarm control lamp (603) and an alarm controller (604), wherein the lamplight detection mounting cover (601) is mounted on a storage guide mounting box (301); a brightness control sensor (602) is fixedly connected inside the lamplight detection mounting cover (601); an alarm control lamp (603) is arranged on the brightness control sensor (602); an alarm controller (604) is arranged on the brightness control sensor (602); the light-transmitting glass plate (303) is positioned inside the lamplight detection mounting cover (601); the alarm controller (604) is electrically connected with the brightness control sensor (602) and the alarm control lamp (603).

9. The eye-protection lamp pulse characteristic measuring device according to claim 4, wherein: the lift guide (7) comprises: the device comprises a mounting sliding bar (701) and a lifting control rod (702), wherein the mounting sliding bar (701) is fixedly connected to a storage guide mounting box (301); the lifting control rod (702) is connected to the installation sliding bar (701) in a sliding manner.

10. The eye-protection lamp pulse characteristic measuring device according to claim 9, wherein: the lift guide (7) further comprises: the counterweight pressing block (703), the counterweight pressing block (703) is fixedly connected to the bottom of the lifting control rod (702); the counterweight pressing block (703) is slidably connected to the storage guide mounting box (301).