CN103675715B - Illuminator energy conservation test module - Google Patents

Abstract

The present invention provides a kind of illuminator energy conservation test module, it by arranging measurement apparatus on support body, can effectively measure the electric current of illuminator simultaneously, voltage, actual power, luminous illumination, power factor, the parameter such as colour temperature and aberration, can accurately grasp the actual parameter of this illuminator, so that carrying out actual disposition according to demand, simultaneously, the cross bar of the support body of the illuminator energy conservation test module of the present invention is relative to pole scalable, and scale is set on pole, to measure the parameters such as luminous illumination under certain distance more accurately, make, when configuring, there is more accurate reference value, further, the length of the cross bar of the support body of the illuminator energy conservation test module of the present invention is adjustable, measurement with the illuminator suitable in different length, measurement scope is wide, simultaneously, when transport and storage, detachable placement, save space occupancy rate, reduce transport and warehouse cost.

Description

Illuminator energy conservation test module

Technical field

The present invention relates to a kind of test module, particularly relate to a kind of illuminator energy conservation test module.

Background technology

Electricity-saving lamp is again compact fluorescent lamp (external abbreviation CFL lamp), it is first to be invented by external producer for 1978, owing to it has light efficiency height (being 5 times of common bulb), energy-saving effect is obvious, life-span length (being 8 times of common bulb), volume is little, the advantage such as easy to use, it is subject to attention and the welcome of the people of various countries and country, China is in nineteen eighty-two, first SL type compact fluorescent lamp is successfully developed at Fudan University's electric light source institute, over 20 years, yield increases rapidly, quality steadily improves, country promotes it and use as the energy-conserving product (green illumination product) of state key development.

Nowadays the energy-conserving product that we say mainly is both for electric filament lamp.Common electric filament lamp light efficiency is approximately in about every watt of 10 lumens, life-span is approximately in 1000 hours, its operation principle is: when lamp accesses in circuit, electric current flows through filament, the heat effect of electric current, electric filament lamp is made to send continuous print visible ray and infrared ray, this phenomenon is raised to 700K at filament temperature and can perceive, filament temperature during due to work is significantly high, most energy slatterns with the form of infra-red radiation, and owing to filament temperature is significantly high, evaporation is also quickly, so the life-span also shortens greatly, it is approximately in 1000 hours.

Electricity-saving lamp heats to tube filament mainly by ballast, when being approximately in 1160K temperature, filament begins to launch electronics (because being coated with some electronic powders on filament), electron collision ar atmo produces inelastic collision, ar atmo collision rift obtains energy and clashes into again mercury atom, mercury atom transition after absorbing energy produces ionization, send the ultraviolet of 253.7nm, ultraviolet excitated fluorescent powder is luminous, during due to fluorescent lamp operation, the temperature of filament is at about 1160K, more much lower than the temperature 2200K-2700K of electric filament lamp work, so the also big raising of its life-span, reach more than 5000 hours, owing to it is absent from heating effect of current as electric filament lamp, the energy conversion efficiency of fluorescent material is also significantly high, reach more than every watt of 50 lumens.

Electricity-saving lamp is that the principle utilizing gas discharge operates, and its art is named as self-ballasted fluorescent lamp, except white (cold light), also has now yellow (warm light).In general, under same wattage, electricity-saving lamp is than electric filament lamp energy-conservation 80%, and average life extends 8 times, heat radiation only 20%.When non-critical, the electricity-saving lamp illumination of one 5 watts can be considered the electric filament lamp equal to 25 watts, the electricity-saving lamp illumination of 7 watts approximates 40 watts, 9 watts approximate 60 watts.

Electricity-saving lamp is applied to various lighting field on a large scale, but the profile of electricity-saving lamp is not quite similar, carrying out luminous illumination, actual power is isoparametric when measuring, need different measurement tools, operate the cumbersome and different parameter measured by tool of measuring also to be not quite similar, it is sometimes necessary to change several measurement tool and just can complete whole measurement, measurement efficiency is low, measures relatively costly.

Summary of the invention

It is an object of the invention to provide a kind of illuminator energy conservation test module, can effectively measure the parameters such as the electric current of illuminator, voltage, actual power, luminous illumination and simple in construction, less costly, easily operate, can effectively promote measurement efficiency.

For achieving the above object, the present invention provides a kind of illuminator energy conservation test module, including: support body, the lamp socket group being installed on support body and be installed on the several measurement apparatus on support body, described support body includes base, be installed on base pole and the cross bar being slidably mounted on pole, described lamp socket group is installed on described cross bar, the scalable setting of this cross bar, and described several measurement apparatus are installed on described pole, this pole is provided with scale, to indicate the lamp socket group distance to base.

Described cross bar includes the first bar portion and is slidably connected to second and the 3rd bar portion at the first two ends, bar portion, described second and the 3rd bar portion be connected to the two ends in described first bar portion respectively through trip bolt.

Described lamp socket group includes fluorescent tube mounting seat and bulb installation seat, and described fluorescent tube mounting seat is respectively arranged in described second and the 3rd in bar portion, and described bulb installation seat is installed in described first bar portion.

Described first bar portion is slidably mounted on described pole, to adjust the distance between lamp socket group and base.

Described first, second and the 3rd bar portion make by metal material.

Described first, second and the 3rd bar portion make by square tube.

Described pole is made up of metal material.

Described pole is made up of square tube material.

Described measurement apparatus includes illumination and takes into account intelligent electrical parameter measuring instrument.

Beneficial effects of the present invention: the illuminator energy conservation test module of the present invention, by arranging measurement apparatus on support body, can effectively measure the electric current of illuminator simultaneously, voltage, actual power, luminous illumination, power factor, the parameter such as colour temperature and aberration, can accurately grasp the actual parameter of this illuminator, so that carrying out actual disposition according to demand, simultaneously, the cross bar of the support body of the illuminator energy conservation test module of the present invention is relative to pole scalable, and scale is set on pole, to measure the parameters such as luminous illumination under certain distance more accurately, make, when configuring, there is more accurate reference value, further, the length of the cross bar of the support body of the illuminator energy conservation test module of the present invention is adjustable, measurement with the illuminator suitable in different length, measurement scope is wide, simultaneously, when transport and storage, detachable placement, save space occupancy rate, reduce transport and warehouse cost.

In order to be able to be further understood that inventive feature and technology contents, refer to the detailed description below in connection with the present invention and accompanying drawing, but accompanying drawing only provides reference and use is described, be not used for the present invention is any limitation as.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, by the specific embodiment of the present invention is described in detail, technical scheme and other beneficial effect will be made apparent.

In accompanying drawing,

Fig. 1 is the floor map of present illumination system energy conservation test module；

Fig. 2 is the perspective view of the support body of present illumination system energy conservation test module;

Fig. 3 is the perspective exploded view of the cross bar of present illumination system energy conservation test module；

Fig. 4 is the connection generalized section of the cross bar of present illumination system energy conservation test module；

Fig. 5 is the connection schematic perspective view of present illumination system energy conservation test module cross bar and pole；

Fig. 6 is the connection generalized section of present illumination system energy conservation test module cross bar and pole.

Detailed description of the invention

For further setting forth the technological means and effect thereof that the present invention takes, it is described in detail below in conjunction with the preferred embodiments of the present invention and accompanying drawing thereof.

Refer to Fig. 1 and Fig. 2, the present invention provides a kind of illuminator energy conservation test module, including: support body 2, the lamp socket group 4 being installed on support body 2 and be installed on the several measurement apparatus 6 on support body 2, described support body 2 includes base 22, be installed on base 22 pole 24 and the cross bar 26 being slidably mounted on pole 24, described lamp socket group 4 is installed on described cross bar 26, this scalable setting of cross bar 26, described several measurement apparatus 6 is installed on described pole 24, this pole 24 is provided with scale 242, to indicate the distance of lamp socket group 4 to base 22.By arranging measurement apparatus 6 on support body 2, can effectively measure the parameters such as the electric current of illuminator, voltage, actual power, luminous illumination, power factor, colour temperature and aberration simultaneously, can accurately grasp the actual parameter of this illuminator, so that carrying out actual disposition according to demand, simultaneously, the cross bar 26 of the support body of the illuminator energy conservation test module of the present invention is relative to pole 24 scalable, and scale 242 is set on pole 24, to measure the parameters such as luminous illumination under certain distance more accurately, make, when configuring, there is more accurate reference value.

Described cross bar 26 includes the first bar portion 262 and is slidably connected to second and the 3rd bar portion 264,266 at the first two ends, bar portion 262, described second and the 3rd bar portion 264,266 be connected to the two ends in described first bar portion 262 respectively through trip bolt 268.

Specifically, refer to Fig. 3 and Fig. 4, described first, second and the 3rd bar portion 262,264,266 make by metal material.In the present embodiment, described first, second and the 3rd bar portion 262,264,266 make by square tube.Wherein, described first bar portion 262 can be the square tube of the equal opening in two ends, and second and the 3rd bar portion 264,266 be the square tube of one end open, the two ends in described first bar portion 262 insert second and the 3rd opening in bar portion 264,266 respectively, and can slide in bar portion 264,266 second and the 3rd, and then the length of this cross bar 26 can be regulated, when being adjusted to appropriate length, sealed by trip bolt 268, it is determined that this length.Preferably, described first bar portion 262 is provided with a groove 263, and the end of the form and dimension correspondence trip bolt 268 of this groove 263 is arranged, so ensure trip bolt 268 can effectively sealed second and the 3rd bar portion 264,266 in the first bar portion 262.

The length of the cross bar 26 of the support body of the illuminator energy conservation test module of the present invention is adjustable, with the measurement of the illuminator suitable in different length, measures scope wide, when transport and storage, detachably places meanwhile, save space occupancy rate, reduces transport and warehouse cost.

Described lamp socket group 4 includes fluorescent tube mounting seat 42 and bulb installation seat 44, and described fluorescent tube mounting seat 42 is respectively arranged in described second and the 3rd in bar portion 264,266, and described bulb installation seat 44 is installed in described first bar portion 262.

In the present embodiment, described first bar portion 262 is slidably mounted on described pole 24, to adjust the distance between lamp socket group 4 and base 22, and then realizes the measurement under different distance.

Specifically, refer to Fig. 5 and Fig. 6, described first bar portion 262 is slidably mounted on described pole 24 by connector 246, this connector 246 is arranged in "Ji" type, and its two ends are fixedly installed in described first bar portion 262 respectively, are formed and chute with the first bar portion 262, described pole 24 inserts chute, and can slide in chute, when being adjusted to correct position, by a sealed screw 248 and then sealed.Preferably, to the end of sealed screw 248 being provided with groove portion 244 on described pole 24, in order to sealed screw 248 can sealed first bar portion 262 and pole 24 securely.

Equally, described pole 24 is made up of metal material, it is preferable that described pole 24 is made up of square tube material.

Described measurement apparatus 6 includes illumination meter 62 and intelligent electrical parameter measuring instrument 64, the end of measuring of wherein said illumination meter 62 may be disposed at the surface of base 22, and by slip cross bar 26, adjustment illuminator and illumination meter 62 measure the distance of end, measure the luminous illumination of differing heights, and the reading end of illumination meter 62 can be installed on pole 24 by modes such as being affiliated to, house；Intelligent electrical parameter measuring instrument 64 is for measuring the parameters such as the electric current of illuminator, voltage, actual power, power factor, colour temperature and aberration, and it mode such as again may be by being affiliated to, house and is installed on pole 24.

In sum, the illuminator energy conservation test module of the present invention, by arranging measurement apparatus on support body, can effectively measure the electric current of illuminator simultaneously, voltage, actual power, luminous illumination, power factor, the parameter such as colour temperature and aberration, can accurately grasp the actual parameter of this illuminator, so that carrying out actual disposition according to demand, simultaneously, the cross bar of the support body of the illuminator energy conservation test module of the present invention is relative to pole scalable, and scale is set on pole, to measure the parameters such as luminous illumination under certain distance more accurately, make, when configuring, there is more accurate reference value, further, the length of the cross bar of the support body of the illuminator energy conservation test module of the present invention is adjustable, measurement with the illuminator suitable in different length, measurement scope is wide, simultaneously, when transport and storage, detachable placement, save space occupancy rate, reduce transport and warehouse cost.

The above, for the person of ordinary skill of the art, it is possible to conceive according to technical scheme and technology and make other various corresponding changes and deformation, and all these change and deform the protection domain that all should belong to the claims in the present invention.

Claims (8)

1. an illuminator energy conservation test module, it is characterized in that, including: support body, the lamp socket group being installed on support body and be installed on the several measurement apparatus on support body, described support body includes base, be installed on base pole and the cross bar being slidably mounted on pole, described lamp socket group is installed on described cross bar, the scalable setting of this cross bar, and described several measurement apparatus are installed on described pole, this pole is provided with scale, to indicate the lamp socket group distance to base；

Described cross bar includes the first bar portion and is slidably connected to second and the 3rd bar portion at the first two ends, bar portion, described second and the 3rd bar portion be connected to the two ends in described first bar portion respectively through trip bolt.

2. illuminator energy conservation test module as claimed in claim 1, it is characterized in that, described lamp socket group includes fluorescent tube mounting seat and bulb installation seat, and described fluorescent tube mounting seat is respectively arranged in described second and the 3rd in bar portion, and described bulb installation seat is installed in described first bar portion.

3. illuminator energy conservation test module as claimed in claim 1, it is characterised in that described first bar portion is slidably mounted on described pole, to adjust the distance between lamp socket group and base.

4. illuminator energy conservation test module as claimed in claim 1, it is characterised in that described first, second and the 3rd bar portion make by metal material.

5. illuminator energy conservation test module as claimed in claim 4, it is characterised in that described first, second and the 3rd bar portion make by square tube.

6. illuminator energy conservation test module as claimed in claim 1, it is characterised in that described pole is made up of metal material.

7. illuminator energy conservation test module as claimed in claim 6, it is characterised in that described pole is made up of square tube material.

8. illuminator energy conservation test module as claimed in claim 1, it is characterised in that described measurement apparatus includes illumination and takes into account intelligent electrical parameter measuring instrument.