CN104180321A - Self-driving rotating type lamp holder structure and lamp combination - Google Patents

Abstract

The invention relates to a self-driving rotating type lamp holder structure and a lamp combination. The self-driving rotating type lamp holder structure comprises a first lamp holder and a second lamp holder matched with the first lamp holder, wherein the first lamp holder and the second lamp holder are used for fixing two ends of a lamp tube and are used for supplying power to the lamp tube; the first lamp holder comprises a first rotating wheel; the first rotating wheel is provided with a first strip-type opening; the first lamp holder fixes the lamp tube through the first strip-type opening; the self-driving rotating type lamp holder structure is characterized in that the first lamp holder further comprises a first micromotor and a first transmission gear; the first rotating wheel comprises a first driven gear with a rotating shaft; the first micromotor is used for driving the first transmission gear; the first transmission gear is meshed with the first driven gear; the first transmission gear and the first driven gear rotate within an angle range of 0 to 90 degrees. The self-driving rotating type lamp holder structure and the lamp combination are higher in safety, and the potential safety hazard is smaller.

Description

Self-powered rotary type holder structure and lamp combination

Technical field

The invention of this life relates to a kind of lamp socket of illuminating device, particularly relates to a kind of self-powered rotary type holder structure.

In addition, the invention still further relates to a kind of lamp combination that adopts aforementioned self-driving type holder structure.

Background technology

Electric light is the electrical equipment being seen everywhere in people's daily life.Along with being rooted in the hearts of the people of scientific and technical progress and environmental protection theory, the electric light of seeing in people's daily life is all the fluorescent lamp of elongate in shape substantially.

Fluorescent lamp generally comprises lamp socket and fluorescent tube.Fluorescent tube is fluorescent lamp normally, for example cold cathode ray fluorescent tube (CCFL).Generally, lamp socket is fixed on ceiling, when user uses fluorescent lamp, fluorescent tube need to be installed.Concrete, first fluorescent tube is inserted in two lamp holders of lamp socket, about 90 degree left and right of rotating light tube then, make fluorescent tube lamp base can be arranged on lamp socket in the brush of power supply contact and fixes.

When changing fluorescent tube, user is first also the direction rotation fluorescent tube according to contrary when installing, and the lamp base of fluorescent tube is separated with corresponding brush, then fluorescent tube is taken out.

As everyone knows, fluorescent tube is very thin glass devices, and the size of fluorescent tube is relatively large, so fluorescent tube is more fragile.In user installation or while unloading fluorescent tube, all need firmly to reverse fluorescent tube.In strength, in the situation such as inhomogeneous or misoperation, fluorescent tube is easy to fragmentation, and the possibility that user is sustained an injury is larger.Therefore, the light fixture of use fluorescent tube of the prior art and lamp socket exist larger potential safety hazard.

Summary of the invention

In view of lamp holder in prior art exists the problem that potential safety hazard is larger, be necessary the self-powered rotary type holder structure that provides a kind of potential safety hazard relatively little.

Meanwhile, in view of lamp combination of the prior art exists the problem that potential safety hazard is larger, be necessary the lamp combination that provides a kind of potential safety hazard relatively little.

For solving the problems of the technologies described above, the invention provides following technical scheme:

A self-powered rotary type holder structure, comprises first lamp holder and second lamp holder being used in conjunction with this first lamp holder, and this first lamp holder and this second lamp holder are also lamp tube power supply for the two ends of fixed lamp tube; This first lamp holder comprises first runner, and this first runner has first strip gab; This first lamp holder is by this first strip gab fixed lamp tube; This first lamp holder also comprises first micro machine, first travelling gear, this first runner comprises that one is subject to moving gear with first of rotating shaft, this first micro machine is used for driving this first travelling gear, this first travelling gear and this first meshed by moving gear, and this first travelling gear and this first rotated by moving gear in the angular range of 0 to 90 degree.

In a specific embodiment of further optimizing, this first is subject to moving gear to comprise the gear part of a continuous an angle of 90 degrees and the gearless portions at 270 continuous degree angles; This first travelling gear and this first meshed by the gear part of moving gear; Or the girth of this first travelling gear is L1, first to be subject to the girth of moving gear be L2 for this, and L1 is greater than 1/4th of L2, and this first travelling gear comprises the gear part of a continuous α radian and the gearless portion of a continuous β radian; α equals (L1*2 π/4*L2), and β equals (2 π-α).

In a specific embodiment of further optimizing, this self-powered rotary type holder structure also comprises a switch, and this switch is for controlling the duty of this first micro machine; When this switch adjacent twice is closed, the direction of rotation of this first micro machine, this first is subject to moving gear to carry out 90 degree rotatings.

In a specific embodiment of further optimizing, this first is subject to moving gear also to comprise first connecting portion and first clamping part, and this first connecting portion and this first clamping part and this first is subject to moving gear to have common axis of rotation; This connecting portion is used for connecting this clamping part and this first and is subject to moving gear; This first strip gab is positioned at this first clamping part, and the geometric center point of this first opening is positioned on the rotating shaft of this first clamping part.

In a specific embodiment of further optimizing, this first micro machine is direct current generator, this self-powered rotary type holder structure also comprises a switch, and this switch is for controlling the duty of this first micro machine, and the duty of this first micro machine comprises rotates and stops operating; This first micro machine comprises a rotating shaft, and this first travelling gear is positioned in the rotating shaft of this first micro machine; This first clamping part and this first connecting portion are circle, and this first clamping part and this first is subject to the diameter of moving gear to be all greater than the diameter of this first connecting portion; This self-powered rotary type holder structure also comprises two the first brushes, and these two first brushes are subject between moving gear at this first clamping part and this first, and these two first brushes are oppositely arranged on the both sides of this first connecting portion.

In a specific embodiment of further optimizing, this first lamp holder also comprises first substrate and first shell, and this first substrate comprises that one for accommodating and fix the first motor boss of this first micro machine and one for supporting the first runner boss of this first runner; First of this first runner is placed on this first runner boss by moving gear; This first shell coordinates an enclosure space of formation with this first substrate, this first micro machine, this first runner, this first travelling gear, this first brush are positioned at this enclosure space.

In a specific embodiment of further optimizing, this second lamp holder comprises second runner, and this second runner comprises second strip gab, and this second lamp holder is by this two strip gabs fixed lamp tube; This second lamp holder also comprises second micro machine, second travelling gear, and this second runner also comprises that one second is subject to moving gear; This second micro machine is used for driving this second travelling gear to rotate, and this second travelling gear and this second meshed by moving gear; This second travelling gear and this second rotated by moving gear in the angular range of 0 to 90 degree; This first is subject to moving gear and this second to be subject to the cooperation of moving gear that this fluorescent tube is rotated in the angular range of 0 to 90 degree to identical direction.

In a specific embodiment of further optimizing, this second is subject to moving gear to comprise the gear part of a continuous an angle of 90 degrees and the gearless portions at 270 continuous degree angles, and this second travelling gear and this second meshed by the gear part of moving gear; Or the girth of this second travelling gear is L1, second to be subject to the girth of moving gear be L2 for this, and L1 is greater than 1/4th of L2, and this second travelling gear comprises the gear part of a continuous α radian and the gearless portion of a continuous β radian; α equals (L1*2 π/4*L2), and β equals (2 π-α); This first micro machine and this second micro machine are the positive and negative rotation motor of direct current, and this first micro machine and this second micro machine are arranged in parallel; This switch is also for controlling the duty of this second micro machine; When this switch adjacent twice is closed, the direction of rotation of this second micro machine, this second is subject to moving gear to carry out 90 degree rotatings.

A lamp combination, comprises fluorescent tube, and the two ends of this fluorescent tube are respectively provided with two electrodes; This lamp combination also comprises the self-powered rotary type holder structure as above matching with the two ends of this fluorescent tube.

In a specific embodiment of further optimizing, wherein the control module at least one self-powered rotary type holder structure comprises the control button being installed on its lamp cap cover, wherein, twice of interval this control button of operation, can make that its fluorescent tube retainer of this driven by motor once just turn 90 degrees, another counter turning 90 degrees.

Adopt after technique scheme, the present invention at least has following beneficial effect:

Because self-powered rotary type holder structure of the present invention comprises first lamp holder, this first lamp holder comprises first runner, and this first runner has first strip gab; This first lamp holder is by this first strip gab fixed lamp tube; This first lamp holder also comprises first micro machine, first travelling gear, this first runner comprises that one is subject to moving gear with first of rotating shaft, this micro machine is for this first travelling gear, this first travelling gear and this first meshed by moving gear, and this first travelling gear and this first rotated by moving gear in the angular range of 0 to 90 degree; Therefore can make self-powered rotary type holder structure of the present invention when fluorescent tube being installed or unloading fluorescent tube, only fluorescent tube need to be implanted in corresponding strip gab, micro machine can drive this strip gab to rotate, thereby drive the lamp base of fluorescent tube and fluorescent tube to rotate, lamp base is contacted with the equipment such as brush of corresponding power supply, thereby without people, be subject to twisting to install or unload fluorescent tube, just can be because of torsion yet inhomogeneous or misoperation cause fluorescent tube cracked, and then can not damage user.Therefore the potential safety hazard of self-powered rotary type holder structure of the present invention is less.

Because lamp holder combination of the present invention comprises self-powered rotary type holder structure, this self-powered rotary type holder structure comprises first lamp holder, and this first lamp holder comprises first runner, and this first runner has first strip gab; This first lamp holder is by this first strip gab fixed lamp tube; This first lamp holder also comprises first micro machine, first travelling gear, this first runner comprises that one is subject to moving gear with first of rotating shaft, this micro machine is for this first travelling gear, this first travelling gear and this first meshed by moving gear, and this first travelling gear and this first rotated by moving gear in the angular range of 0 to 90 degree; Therefore can make lamp combination of the present invention when fluorescent tube being installed or unloading fluorescent tube, only fluorescent tube need to be implanted in corresponding strip gab, micro machine can drive this strip gab to rotate, thereby drive the lamp base of fluorescent tube and fluorescent tube to rotate, lamp base is contacted with the equipment such as brush of corresponding power supply, thereby without people, be subject to twisting to install or unload fluorescent tube, just can be because of torsion yet inhomogeneous or misoperation cause fluorescent tube cracked, and then can not damage user.Therefore the potential safety hazard of lamp combination of the present invention is less.

Accompanying drawing explanation

Fig. 1 is the perspective view of lamp combination of the present invention.

Fig. 2 is the perspective exploded view of lamp combination shown in Fig. 1.

Fig. 3 is the structure for amplifying schematic diagram of the first runner shown in Fig. 2.

Fig. 4 is the front view of the rotary type of self-powered shown in Fig. 1 holder structure.

Fig. 5 is the side view of the rotary type of self-powered shown in Fig. 1 holder structure.

Fig. 6 is the perspective view of the rotary type of self-powered shown in Fig. 5 holder structure.

Fig. 7 is that lamp combination shown in Fig. 4 is along the cutaway view of A-A line.

Fig. 8 is the upward view of lamp combination shown in Fig. 1.

Fig. 9 is the circuit diagram of micro machine in lamp combination of the present invention.

Label declaration:

1 self-powered rotary type holder structure; 11 first lamp holders; 111 first substrates; 111a the first runner boss; 111b the first motor boss; 112 first shells; 113 first micro machines; 114 first travelling gears; 115 first runners; 115a first is subject to moving gear; 115b the first clamping part; 115c the first connecting portion; 115d the first strip gab; 115e the first gear part; 115f the first gearless portion; 116 circuit for controlling motor plates; 116a switch; 117 first power supply brushes; 12 second lamp holders; 121 second substrates; 122 second housings; 123 second micro machines; 124 second travelling gears; 125 second runners; 127 second power supply brushes; 3 fluorescent tubes.

The specific embodiment

It should be noted that, in the situation that not conflicting, embodiment and the technical characterictic in embodiment in the application can mutually combine, and below in conjunction with the drawings and specific embodiments, the present invention are described in further detail.

Refer to Fig. 1, Fig. 1 is the perspective view of lamp combination of the present invention.Self-powered rotary type holder structure 1 comprises first lamp holder 11 and second lamp holder 12.This first lamp holder 11 and this second lamp holder 12 are oppositely arranged, and fluorescent tube 3 is placed between this first lamp holder 11 and this second lamp holder 12.This first lamp holder 11 and this second lamp holder 12 be for fixing this fluorescent tube 3, and be that this fluorescent tube 3 is powered simultaneously.

See also Fig. 2, Fig. 2 is the perspective exploded view of the self-powered rotary type holder structure 1 shown in Fig. 1.This first lamp holder 11 comprises first substrate 111 and first shell 112.This first substrate 111 is bogeys, and for carrying all the other devices in this first lamp holder 11, this first shell 112 is protective devices, for the protection of all the other devices in this first lamp holder 11.This first substrate 111 and this first shell 112 complement each other to form the receiving space of a sealing.

This first lamp holder 11 also comprises first micro machine 113, one the first travelling gear 114, one the first runner 115, circuit for controlling motor plate 116 and two first power supply brushes 117.This first micro machine 113 is for driving this first travelling gear 114 to rotate.This first runner 115 is for clamping the lamp base of this fluorescent tube 3, and with these first travelling gear, 114 engagements.This first circuit for controlling motor plate 116 is for controlling the duty of this first micro machine 113.These two first power supply brushes 117 are used to this fluorescent tube 3 power supplies, and meanwhile, each this first power supply brush 117 contacts with a lamp base of fluorescent tube 3.

See also Fig. 3 to Fig. 9, Fig. 3 is the structure for amplifying schematic diagram of the first runner 115 shown in Fig. 2, Fig. 4 is the front view of the rotary type of self-powered shown in Fig. 1 holder structure 1, Fig. 5 is the side view of the rotary type of self-powered shown in Fig. 1 holder structure 1, Fig. 6 is the perspective view of the rotary type of self-powered shown in Fig. 5 holder structure 1, Fig. 7 is the rotary type of self-powered shown in Fig. 4 holder structure 1 cutaway view along A-A line while using, upward view when Fig. 8 is 1 use of the rotary type of self-powered shown in Fig. 1 holder structure, Fig. 9 is the circuit diagram of micro machine in lamp combination of the present invention.

This first substrate 111 is a plate device, and it comprises a first runner boss 111a and a first motor boss 111b.This first runner boss 111a, for this first runner 115 of bearing support, can rotate this first runner 115 on this first boss 111a.This first motor boss 111b is used for carrying and fixing this first motor 113, makes stable being fixed in this first substrate 111 of energy when operation of this first motor 113.

This first shell 112 is the housing of a semi-cylindrical bottom surface opened.This first shell 112 can cover this first substrate 111, and coordinate with this first substrate 111 space that forms a sealing, this enclosure space can be by this first micro machine 113, the first travelling gear 114, the first runner 115, circuit for controlling motor plate 116 and these two first power supply brush 117 encapsulation.

This first motor 113 is a direct current generator.Concrete, in an embodiment of this self-powered rotary type holder structure 1, this first motor 113 can be clockwise and anticlockwise motor, that is, this first motor 113 can turn clockwise, and also can be rotated counterclockwise.According to the difference that the firm control signal to this first motor 113 is provided, this first motor 113 can be realized and turn clockwise, is rotated counterclockwise and the three kinds of states that stop the rotation.

This first travelling gear 114 can be the gear of a plastic construction.This first travelling gear 113 is placed on the turning cylinder of this first motor 113.When this first motor 113 rotates, this first travelling gear 114 is along with the turning cylinder of this first motor 113 together rotates.

One end of this first runner 115 and 114 engagements of this first travelling gear, the other end contacts with the lamp base of this fluorescent tube 3.Particularly, this first runner 115 comprises that one first is subject to moving gear 115a, a first clamping part 115b and a first connecting portion 115c.First to be subject to moving gear 115a, this first clamping part 115b and this first connecting portion 115c be all circular for this, and the center of circle is positioned at same straight line and has common axis of rotation.This first clamping part 115b and this first be arranged in parallel by moving gear 115a, and this first connecting portion 115c is subject between moving gear 115a at this first clamping part 115b and this first, for connecting this first clamping part 115b and this first, is subject to moving gear 115a.This first is subject to the diameter of moving gear 115a to be greater than the diameter of this first connecting portion 115c, is less than this and first adds the diameter of holding the 115b of portion.

This first clamping part 115b comprises a first strip gab 115d.This first strip gab 115d is for accommodating the lamp base of this fluorescent tube 3, and the sidewall by this first strip gab 115d provides support power for this lamp base.This first strip gab 115d is through the center of circle of this first clamping part 115b, and the center of circle of the geometric center point of this first strip gab 115d and this first clamping part 115b is overlapping.

This first is subject to moving gear 115a to comprise a first gear part 115e and first 115f of gearless portion.This first is subject to moving gear 115a by 114 engagements of this first gear part 115e and this first travelling gear, and realization becomes this by the rotation of this first travelling gear 114 and first is subject to the rotation of moving gear 115a, and then becomes the rotation of fluorescent tube 3.

The shared radian of this first gear part 115e is 0.5 π, is the angular range of 90 degree.The shared radian of this first gearless 115f of portion is 1.5 π, is the angular range of 270 degree.Therefore at this, first by this first travelling gear 114, driven by moving gear 115a and while rotating, this first can only be rotated by moving gear 115a in the angular range of 0 to 90 degree.Also just because this this fluorescent tube 3 can rotate within the scope of the payment of 0 to 90 degree.

This circuit for controlling motor plate 116 comprises a shift knob 116a.This circuit for controlling motor plate 116 is used to this first micro machine 113 power supplies, is also these two first power supply brush 117 power supplies simultaneously.During for this first micro machine 113 power supply, this circuit for controlling motor plate 116 becomes direct current by alternating current.While pressing this first shift knob 116a, this first micro machine 113 to first direction rotation, for example, turns clockwise.While again pressing this first shift knob 116a, this first micro machine 113 to the second direction rotation contrary with this first direction, for example, is rotated counterclockwise.

These two first power supply brushes 117 are generally copper material.These two first power supply brushes 117 first are subject between moving gear 115a and this first clamping part 115b at this.Every side of this first connecting portion 115c has this first power supply brush 117.

This second lamp holder 12 is substantially identical with these the first lamp holder 11 structures, particularly:

This second lamp holder 12 also comprises second micro machine 123, one the second travelling gear 124, one the second runner 125, circuit for controlling motor plate 126 and two second power supply brushes 127.This second micro machine 123 is for driving this second travelling gear 124 to rotate.This second runner 125 is for clamping the lamp base of this fluorescent tube 3, and with these second travelling gear, 124 engagements.This second circuit for controlling motor plate 126 is for controlling the duty of this second micro machine 123.These two second power supply brushes 127 are used to this fluorescent tube 3 power supplies, and meanwhile, each this second power supply brush 127 contacts with a lamp base of fluorescent tube 3.

This second substrate 121 is a plate device, and it comprises a second runner boss and a second motor boss.This second runner boss, for this second runner 125 of bearing support, can rotate this second runner 125 on this second boss.This second motor boss is used for carrying and fixing this second motor 123, makes stable being fixed in this second substrate 121 of energy when operation of this second motor 123.

This second housing 122 is the housing of a semi-cylindrical bottom surface opened.This second housing 122 can cover this second substrate 121, and coordinate with this second substrate 121 space that forms a sealing, this enclosure space can be by this second micro machine 123, the second travelling gear 124, the second runner 125, circuit for controlling motor plate 126 and these two second power supply brush 127 encapsulation.

This second motor 123 is a direct current generator.Concrete, in an embodiment of this self-powered rotary type holder structure 1, this second motor 123 can be clockwise and anticlockwise motor, that is, this second motor 123 can turn clockwise, and also can be rotated counterclockwise.According to the difference that the firm control signal to this second motor 123 is provided, this second motor 123 can be realized and turn clockwise, is rotated counterclockwise and the three kinds of states that stop the rotation.

This second travelling gear 124 can be the gear of a plastic construction.This second travelling gear 123 is placed on the turning cylinder of this second motor 123.When this second motor 123 rotates, this second travelling gear 124 is along with the turning cylinder of this second motor 123 together rotates.

One end of this second runner 125 and 124 engagements of this second travelling gear, the other end contacts with the lamp base of this fluorescent tube 3.Particularly, this second runner 125 comprises that one second is subject to moving gear, second clamping part and second connecting portion.Second to be subject to moving gear, this second clamping part and this second connecting portion be all circular for this, and the center of circle is positioned at same straight line and has common axis of rotation.This second clamping part and this second be arranged in parallel by moving gear, and this second connecting portion is subject between moving gear in this second clamping part and this second, for connecting this second clamping part and this second, is subject to moving gear.This second is subject to the diameter of moving gear to be greater than the diameter of this second connecting portion, is less than this second diameter that adds the portion of holding.

This second clamping part comprises second strip gab.This second strip gab is for accommodating the lamp base of this fluorescent tube 3, and the sidewall by this second strip gab provides support power for this lamp base.This second strip gab is through the center of circle of this second clamping part, and the center of circle of the geometric center point of this second strip gab and this second clamping part is overlapping.

This second is subject to moving gear to comprise second gear part and a second gearless portion.This second is subject to moving gear to pass through this second gear part and this second travelling gear meshes, and realizes the rotation of this second travelling gear is become to this second being subject to the rotation of moving gear, and then becomes the rotation of fluorescent tube 3.

The shared radian of this second gear part is 0.5 π, is the angular range of 90 degree.The shared radian of this second gearless 125f of portion is 1.5 π, is the angular range of 270 degree.Therefore at this, second by this second travelling gear 124, driven by moving gear and while rotating, this second can only be rotated by moving gear in the angular range of 0 to 90 degree.Also just because this this fluorescent tube 3 can rotate within the scope of the payment of 0 to 90 degree.

These two second power supply brushes 127 are generally copper material.These two second power supply brushes 127 second are subject between moving gear 125a and this second clamping part 125b at this.Every side of this second connecting portion 125c has this second power supply brush 127.

This circuit for controlling motor plate 116 is these the second micro machine 123 power supplies simultaneously.This second micro machine 123 and this first micro machine are connected in parallel.This first micro machine 113 and this second micro machine 123 are separately positioned on the both sides of fluorescent tube 3, be oppositely arranged, when therefore shift knob 116a presses, the opposite direction that this first micro machine 113 and this second micro machine 123 rotate, thereby make this first travelling gear 114 and these the second travelling gear 124 direction of rotation, and then make this first be subject to moving gear 115a second to be subject to the rotation direction of moving gear identical with this, make fluorescent tube 3 stressed to same direction.

When this self-powered rotary type holder structure 1 is used:

First the lamp base of one end of fluorescent tube 3 is inserted in the first strip gab 115d of this first lamp holder 11, the lamp base of the other end of fluorescent tube 3 is inserted in the second strip gab of this second lamp holder 12.

Next presses the shift knob 116a on this circuit for controlling motor plate 116, the opposite direction that now this first micro machine 113 and this second micro machine 123 rotate, thereby make this first travelling gear 114 and these the second travelling gear 124 direction of rotation, and then make this first be subject to moving gear 115a second to be subject to the rotation direction of moving gear identical with this, make fluorescent tube 3 stressed to same direction.This fluorescent tube 3 starts to rotate.While having rotated predetermined angular, for example 90 when spend, and this first travelling gear 114 turns to this first the first 115f of gearless portion that is subject to moving gear 115a, and motor stops operating.Now fluorescent tube 3 is just installed on this first power supply brush 117 and this second power supply brush 127.

Just in time contrary with above-mentioned action, when needs unload fluorescent tube, only need to click shift knob 116a.Fluorescent tube 3 90-degree rotation in the opposite direction now.Now lamp 3 can be taken out from self-powered rotary type holder structure 1 of the present invention.

Self-powered rotary type holder structure 1 of the present invention and lamp combination are by micro machine is set in lamp socket, and micro machine connects gear, and the device that gear drive adds lamp carrier rotates, thereby make fluorescent tube follow motor, rotates in the lump.Electric machine rotation is during to assigned address, and fluorescent tube also can turn to the position of expectation.Thereby make fluorescent tube can after implanting respective clamp equipment, pass through electrical equipment automatic rotation.Thereby solved the larger problem of lamp socket potential safety hazard for fluorescent tube that needs manual rotation fluorescent tube to cause in prior art.

With respect to prior art, because self-powered rotary type holder structure 1 of the present invention and lamp combination comprise first lamp holder 11, this first lamp holder 11 comprises first runner 115, and this first runner 115 has a first strip gab 115d; This first lamp holder 11 is by this first strip gab 115d fixed lamp tube; This first lamp holder 11 also comprises first micro machine 113, first travelling gear 114, this first runner 115 comprises that one is subject to moving gear 115a with first of rotating shaft, this first micro machine 113 is for driving this first travelling gear 114, this first travelling gear 114 first is meshed by moving gear 115a with this, and this first travelling gear 114 and this first rotated by moving gear 115a in the angular range of 0 to 90 degree; Therefore can make self-powered rotary type holder structure of the present invention when fluorescent tube being installed or unloading fluorescent tube, only fluorescent tube need to be implanted in corresponding strip gab, micro machine can drive this strip gab to rotate, thereby drive the lamp base of fluorescent tube and fluorescent tube to rotate, lamp base is contacted with the equipment such as brush of corresponding power supply, thereby without people, be subject to twisting to install or unload fluorescent tube, just can be because of torsion yet inhomogeneous or misoperation cause fluorescent tube cracked, and then can not damage user.Therefore the potential safety hazard of self-powered rotary type holder structure 1 of the present invention and lamp combination is less.

Further, with respect to prior art, because self-powered rotary type holder structure 1 and lamp combination also comprise that this second lamp holder 12 comprises second runner 125, this second runner 125 comprises second strip gab, and this second lamp holder 12 is by this two strip gabs fixed lamp tube; This second lamp holder 12 also comprises second micro machine 123, second travelling gear 124, and this second runner 125 also comprises that one second is subject to moving gear; This second micro machine 123 is for driving this second travelling gear 124 to rotate, and this second travelling gear 124 second is meshed by moving gear with this; This second travelling gear and this second rotated by moving gear in the angular range of 0 to 90 degree; This first is subject to moving gear and this second to be subject to the cooperation of moving gear that this fluorescent tube is rotated in the angular range of 0 to 90 degree to identical direction.Therefore can make self-powered rotary type holder structure 1 of the present invention and lamp combination in rotating light tube 3, can have two lamp sockets to carry out Dual Drive, better effects if.

The invention is not restricted to above embodiment, also there is the embodiment of a plurality of changes, for example:

One, the girth of the first travelling gear 114 is that L1 is greater than first and is subject to the 1/4th, first travelling gear 114 of the perimeter L 2 of moving gear 115a to have the continuous gear part of L1*2 π/4*L2 radian, and remainder is gearless portion; First to be subject to moving gear 115a be the gear with full angle;

Two, the second lamp socket is conventional lamp socket, do not comprise the facilities such as micro machine, although illustrated and described embodiments of the invention, for the ordinary skill in the art, be appreciated that without departing from the principles and spirit of the present invention and can carry out multiple variation, modification, replacement and modification to these embodiment, scope of the present invention is limited by claims and equivalency range thereof.

Claims (10)

1. a self-powered rotary type holder structure, comprises first lamp holder and second lamp holder being used in conjunction with this first lamp holder, and this first lamp holder and this second lamp holder are also lamp tube power supply for the two ends of fixed lamp tube; This first lamp holder comprises first runner, and this first runner has first strip gab; This first lamp holder is by this first strip gab fixed lamp tube, it is characterized in that, this first lamp holder also comprises first micro machine, first travelling gear, this first runner comprises that one is subject to moving gear with first of rotating shaft, this first micro machine is used for driving this first travelling gear, this first travelling gear and this first meshed by moving gear, and this first travelling gear and this first rotated by moving gear in the angular range of 0 to 90 degree.

2. self-powered rotary type holder structure according to claim 1, is characterized in that, this first is subject to moving gear to comprise the gearless portions at the gear part of a continuous an angle of 90 degrees and 270 continuous degree angles; This first travelling gear and this first meshed by the gear part of moving gear; Or the girth of this first travelling gear is L1, first to be subject to the girth of moving gear be L2 for this, and L1 is greater than 1/4th of L2, and this first travelling gear comprises the gear part of a continuous α radian and the gearless portion of a continuous β radian; α equals (L1*2 π/4*L2), and β equals (2 π-α).

3. the self-powered rotary type holder structure of any one according to claim 2, is characterized in that, this self-powered rotary type holder structure also comprises a switch, and this switch is for controlling the duty of this first micro machine; When this switch adjacent twice is closed, the direction of rotation of this first micro machine, this first is subject to moving gear to carry out 90 degree rotatings.

4. the self-powered rotary type holder structure of any one according to claim 3, it is characterized in that, this first is subject to moving gear also to comprise first connecting portion and first clamping part, and this first connecting portion and this first clamping part and this first is subject to moving gear to have common axis of rotation; This connecting portion is used for connecting this clamping part and this first and is subject to moving gear; This first strip gab is positioned at this first clamping part, and the geometric center point of this first opening is positioned on the rotating shaft of this first clamping part.

5. self-powered rotary type holder structure according to claim 4, it is characterized in that, this first micro machine is direct current generator, this self-powered rotary type holder structure also comprises a switch, this switch is for controlling the duty of this first micro machine, and the duty of this first micro machine comprises rotates and stops operating; This first micro machine comprises a rotating shaft, and this first travelling gear is positioned in the rotating shaft of this first micro machine; This first clamping part and this first connecting portion are circle, and this first clamping part and this first is subject to the diameter of moving gear to be all greater than the diameter of this first connecting portion; This self-powered rotary type holder structure also comprises two the first brushes, and these two first brushes are subject between moving gear at this first clamping part and this first, and these two first brushes are oppositely arranged on the both sides of this first connecting portion.

6. self-powered rotary type holder structure according to claim 5, it is characterized in that, this first lamp holder also comprises first substrate and first shell, and this first substrate comprises that one for accommodating and fix the first motor boss of this first micro machine and one for supporting the first runner boss of this first runner; First of this first runner is placed on this first runner boss by moving gear; This first shell coordinates an enclosure space of formation with this first substrate, this first micro machine, this first runner, this first travelling gear, this first brush are positioned at this enclosure space.

7. self-powered rotary type holder structure according to claim 1, is characterized in that this second lamp holder comprises second runner, and this second runner comprises second strip gab, and this second lamp holder is by this two strip gabs fixed lamp tube; This second lamp holder also comprises second micro machine, second travelling gear, and this second runner also comprises that one second is subject to moving gear; This second micro machine is used for driving this second travelling gear to rotate, and this second travelling gear and this second meshed by moving gear; This second travelling gear and this second rotated by moving gear in the angular range of 0 to 90 degree; This first is subject to moving gear and this second to be subject to the cooperation of moving gear that this fluorescent tube is rotated in the angular range of 0 to 90 degree to identical direction.

8. self-powered rotary type holder structure according to claim 7, it is characterized in that, this second is subject to moving gear to comprise the gearless portions at the gear part of a continuous an angle of 90 degrees and 270 continuous degree angles, and this second travelling gear and this second meshed by the gear part of moving gear; Or the girth of this second travelling gear is L1, second to be subject to the girth of moving gear be L2 for this, and L1 is greater than 1/4th of L2, and this second travelling gear comprises the gear part of a continuous α radian and the gearless portion of a continuous β radian; α equals (L1*2 π/4*L2), and β equals (2 π-α); This first micro machine and this second micro machine are the positive and negative rotation motor of direct current, and this first micro machine and this second micro machine are arranged in parallel; This switch is also for controlling the duty of this second micro machine; When this switch adjacent twice is closed, the direction of rotation of this second micro machine, this second is subject to moving gear to carry out 90 degree rotatings.

9. a lamp combination, comprises fluorescent tube, and the two ends of this fluorescent tube are respectively provided with two electrodes, it is characterized in that, also comprises the self-powered rotary type holder structure as described in match with the two ends of this fluorescent tube as arbitrary in claim 1 to 8.

10. according to lamp combination claimed in claim 9, it is characterized in that, wherein the control module at least one self-powered rotary type holder structure comprises the control button being installed on its lamp cap cover, wherein, twice of interval this control button of operation, can make that its fluorescent tube retainer of this driven by motor once just turn 90 degrees, another counter turning 90 degrees.