CN105914544A - Uninterrupted conduction mechanism and bar-shaped lamp - Google Patents

Abstract

An uninterrupted conduction mechanism and a bar-shaped lamp are disclosed. The uninterrupted conduction mechanism comprises a support structure and a plurality of conducting structures. The support structure comprises a first support component, a second support component and a locking device used for locking and cooperating with the first support component and the second support component. Each conducting structure comprises an insulation fixing substrate, an insulation connection seat and an electrical connection assembly. The electrical connection assembly comprises a conduction bar, a male connector, a female connector and an electric contact component. Through the locking device, the first support component and the second support component can be lengthened arbitrarily along successively alternative directions. The adjacent conducting structures are connected through the male connectors and the female connectors respectively so that the plurality of conducting structures can be uninterrupted connected along successively alternative arrangement directions of the first support component and the second support component. In each conducting structure, the electric contact component keeps to be electrically contacted with the conduction bar during a process that the insulation connection seat moves relative to the insulation fixing substrate. Electricity taking positions can be arranged uninterruptedly so that electricity taking is flexible.

Description

Conductive mechanism free of discontinuities and strip light

Technical field

The invention belongs to strip light field, particularly relate to a kind of conductive mechanism free of discontinuities and strip light.

Background technology

Strip light for long and narrow spaces such as large supermarket, shop production line, logistics warehouses, it is typically to utilize the support member of multiple strip being sequentially connected with as supporting construction, metallic channel is offered in support member, and electric wire is arranged in metallic channel, again electricity getting device is set in fixing position, when this causes electricity consumption, power taking can only be carried out in the position being provided with electricity getting device.For long and narrow spaces such as large supermarket, shop production line, logistics warehouses, generally require the layout according to article and be adjusted the position of illumination, and putting of the article in large supermarket, shop production line, logistics warehouse it is frequently necessary to move and adjust, therefore, power taking can only be carried out at ad-hoc location, be not easy to be adjusted flexibly the position to take power of lighting.

Summary of the invention

It is an object of the invention to overcome above-mentioned the deficiencies in the prior art, it is provided that conductive structure free of discontinuities, it aims to solve the problem that and can only arrange power taking in fixing position, the problem being not easy to flexible power taking.

The present invention is achieved in that

A kind of conductive mechanism free of discontinuities, for strip light, including supporting construction and multiple conductive structure, wherein, described supporting construction includes the first support member, the second support member and coordinates described first support member and the locking device of described second support member for locking, described first support member and described second support member are all at least provided with one, and described first support member and described second support member are arranged alternately successively；

Described conductive structure includes being connected to described first support member and/or the insulation fixed pedestal of described second support member, may move the insulation connection seat being connected with described insulation fixed pedestal and be located at the electrical connection module between described insulation fixed pedestal and described insulation connection seat, described electrical connection module includes the bus being fixed on described insulation fixed pedestal and arranging along described insulation connection seat mobile route, it is connected to the public connector of described bus one end, it is connected to the female connectors of the described bus other end and is fixed on described insulation connection seat and moves with described insulation connection seat and keep the electric contact piece in electrical contact with described bus.

Alternatively, described electrical connection module includes the fixing vertical bar of insulation being fixed on described insulation fixed pedestal and arranging along described insulation connection seat mobile route, described bus is located at described insulation and is fixed the side of vertical bar, described electric contact piece includes that being located at described insulation fixes the contact site being fixed with described bus side in vertical bar, and described contact site has recovery elasticity and contacts with described bus under recovering elastic effect.

Alternatively, described insulation is fixed the vertical bar side corresponding with described contact site and is offered the fixing groove for placing described bus.

Alternatively, the groove depth of described fixing groove offers the thickness in direction more than described bus at described fixing groove notch, and described contact site is through the notch of described fixing groove and until contacting with described bus.

Alternatively, described insulation is fixed vertical bar and is provided with the limiting section for preventing described bus from departing from from described fixing groove notch at the both sides cell wall of described fixing groove.

Alternatively, described electric contact piece includes the free end being connected to described contact site and extends towards described insulation fixed pedestal and fix, towards deviating from described insulation, the guide portion that vertical bar direction is obliquely installed.

Alternatively, described insulation is fixed vertical bar and is being provided with the guiding slope coordinated with described guide portion towards the end of described insulation connection seat.

Alternatively, described locking device includes the first locking counterpart being connected to described second support member and is articulated with the second locking counterpart of described first support member, described first locking counterpart is provided with hole clipping, described second locking counterpart includes that being placed into described hole clipping with pin joint for axis of rotation rotation coordinates described first support member and the grab of described second support member with locking, and described card is hooked to the distance of described second locking counterpart pin joint and matches to the spacing of described second locking counterpart with described hole clipping.

Alternatively, described locking device includes that intermediate connector, described intermediate connector are connected to described first support member, and described second locking counterpart is articulated with described intermediate connector.

Alternatively, described intermediate connector includes the connection canned paragraph being connected with described first support member, and described first support member is provided with and slips into and limit described connection canned paragraph in the be perpendicular to section bar bearing of trend relative movement first spacing sliding chamber for described connection canned paragraph.

Alternatively, described intermediate connector includes that the extension being placed in described second support member coordinates section, and described second support member is provided with and slips into and limit the described cooperation section that extends in the be perpendicular to section bar bearing of trend relative movement second spacing sliding chamber for described extension counterpart.

Alternatively, the shape of cross section in described first spacing sliding chamber is identical with the shape of cross section in described second spacing sliding chamber, and the position in the sliding chamber spacing with second, position in the first spacing sliding chamber is correspondingly arranged.

Alternatively, described first locking counterpart is wholely set with described first support member, and described first locking counterpart is by described first section bar.

Alternatively, described second locking counterpart includes being provided with the handle rotated around pin joint for staff force to drive described second locking counterpart.

The present invention also provides for a kind of strip light, including above-mentioned conductive mechanism free of discontinuities.

Result based on the present invention, the first support member and the second support member arranged direction successively alternately can be made arbitrarily to extend by locking device, adjacent conductive structure is then attached by respective public connector and female connectors, make the arranged direction uninterrupted connection that multiple conductive structure can replace successively along the first support member and the second support member, and in conductive structure, electric contact piece still keeps in electrical contact with bus during insulation connection seat opposing insulation fixed pedestal moves, the position to take power of functional device can be along the setting free of discontinuities of supporting construction deposition path, it is easy to flexible power taking, being applicable to some needs any one position in long and narrow space to carry out the use occasion of power taking.

Accompanying drawing explanation

For the technical scheme being illustrated more clearly that in the embodiment of the present invention, the accompanying drawing used required in embodiment will be briefly described below, apparently, accompanying drawing in describing below is only some embodiments of the present invention, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the part isometric structural representation of the conductive mechanism free of discontinuities that the embodiment of the present invention provides；

Fig. 2 is the decomposition texture schematic diagram of supporting construction in the conductive mechanism free of discontinuities that the embodiment of the present invention provides, and wherein, part is carried out broken section；

Fig. 3 is the status architecture schematic diagram to be connected of supporting construction in the conductive mechanism free of discontinuities that the embodiment of the present invention provides, and wherein, part is carried out broken section；

Fig. 4 be the embodiment of the present invention provide conductive mechanism free of discontinuities in supporting construction connection in structural representation, wherein, part is carried out broken section；

Fig. 5 is the connection status structural representation of supporting construction in the conductive mechanism free of discontinuities that the embodiment of the present invention provides, and wherein, part is carried out broken section；

Fig. 6 is the perspective view of the first support member of supporting construction in the conductive mechanism free of discontinuities that the embodiment of the present invention provides；

Fig. 7 is the front view of Fig. 5；

Fig. 8 is the perspective view of the second locking counterpart of supporting construction in the conductive mechanism free of discontinuities that the embodiment of the present invention provides；

Fig. 9 is the side view of Fig. 7；

Figure 10 is the perspective view of the intermediate connector of supporting construction in the conductive mechanism free of discontinuities that the embodiment of the present invention provides.

Figure 11 is that in the conductive mechanism free of discontinuities that the embodiment of the present invention provides, conductive structure is treating the part-structure schematic diagram of status of electrically connecting；

Figure 12 is the structural representation of the insulation fixed pedestal of conductive structure in the conductive mechanism free of discontinuities that the embodiment of the present invention provides；

Figure 13 is that in the conductive mechanism free of discontinuities that the embodiment of the present invention provides, conductive structure is treating the overall structure schematic diagram of status of electrically connecting；

Figure 14 is the axonometric chart of Figure 13；

Figure 15 is the axonometric chart of the insulation connection seat of conductive structure in the conductive mechanism free of discontinuities that the embodiment of the present invention provides；

Figure 16 is the decomposition texture schematic diagram of Figure 15.

Drawing reference numeral illustrates:

Label	Title	Label	Title
				100	Supporting construction	200	Conductive structure
110	First support member	1101	First spacing sliding chamber
				111	First structure base slab
112	First outer panel	1121	First chute
				120	Second support member	1201	Second spacing sliding chamber
130	Locking device
				131	First locking counterpart	1311	Hole clipping
132	Second locking counterpart
				1321	Grab	1322	Handle
133	Intermediate connector
				1331	Connect canned paragraph	1332	Extend and coordinate section
210	Insulation fixed pedestal
				220	Insulation connection seat	2201	Position limiting structure part
221	Connect base	222	Connect lid
				230	Electrical connection module
231	Bus
				232	Electric contact piece
2321	Contact site	2322	Guide portion
				240	The fixing vertical bar of insulation
241	Limiting section
				2401	Fixing groove	2402	Guide slope
250	Public connector	260	Female connectors

Detailed description of the invention

Embodiments of the invention are described below in detail, and the example of described embodiment is shown in the drawings, and the most same or similar label represents same or similar element or has the element of same or like function.The embodiment described below with reference to accompanying drawing is exemplary, it is intended to is used for explaining the present invention, and is not considered as limiting the invention.

In describing the invention, it will be appreciated that, term " length ", " width ", " on ", D score, "front", "rear", "left", "right", " vertically ", " level ", " top ", " end " " interior ", the orientation of the instruction such as " outward " or position relationship be based on orientation shown in the drawings or position relationship, it is for only for ease of the description present invention and simplifies description, rather than instruction or hint indication device or element must have specific orientation, with specific azimuth configuration and operation, be therefore not considered as limiting the invention.

Additionally, term " first ", " second " are only used for describing purpose, and it is not intended that instruction or hint relative importance or the implicit quantity indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or implicitly include one or more this feature.In describing the invention, " multiple " are meant that two or more, unless otherwise expressly limited specifically.

In the present invention, unless otherwise clearly defined and limited, term " is installed ", " being connected ", " connection ", the term such as " fixing " should be interpreted broadly, and connects for example, it may be fixing, it is also possible to be to removably connect, or integral；Can be to be mechanically connected, it is also possible to be electrical connection；Can be to be joined directly together, it is also possible to be indirectly connected to by intermediary, can be connection or the interaction relationship of two elements of two element internals.For the ordinary skill in the art, above-mentioned term concrete meaning in the present invention can be understood as the case may be.

The embodiment of the present invention provides a kind of conductive mechanism free of discontinuities.

As shown in Fig. 1 to Figure 16, this conductive mechanism free of discontinuities includes supporting construction 100 and conductive structure 200.

Wherein, supporting construction 100 includes first support member the 110, second support member 120 and for locking cooperation the first support member 110 and locking device 130 of the second support member 120, first support member 110 and the second support member 120 are all at least provided with one, and the first support member 110 and the second support member 120 are arranged alternately successively.

And conductive structure 200 includes being connected to the first support member 110 and/or insulation fixed pedestal 210 of the second support member 120, may move, with insulation fixed pedestal 210, the insulation connection seat 220 being connected and be located at the electrical connection module 230 between insulation fixed pedestal 210 and insulation connection seat 220, electrical connection module 230 includes the bus 231 being fixed on insulation fixed pedestal 210 and arranging along insulation connection seat 220 mobile route, it is connected to the public connector 250 of bus 231 one end, it is connected to the female connectors 260 of bus 231 other end and is fixed on insulation connection seat 220 and moves with insulation connection seat 220 and keep bus 231 electric contact piece 232 in electrical contact.In specifically used, this bus 231 can be directly connected to civil power, it is also possible to is connected with other DC sources, or is directly grounded, and electric contact piece 232 is then connected with the functional device in power device.

In use, the first support member 110 and the second support member 120 arranged direction successively alternately can be made arbitrarily to extend by locking device 130, adjacent conductive structure 200 is then attached by respective public connector 250 and female connectors 260, make the arranged direction uninterrupted connection that multiple conductive structure 200 can replace successively along the first support member 110 and the second support member 120, and in conductive structure 200, electric contact piece 232 still keeps in electrical contact with bus 231 during insulation connection seat 220 opposing insulation fixed pedestal 210 moves, the position to take power of functional device can be along supporting construction 100 deposition path setting free of discontinuities, it is easy to flexible power taking, being applicable to some needs any one position in long and narrow space to carry out the use occasion of power taking.

In above-mentioned, bus 231 is made up of copper material, it is also possible to be made up of other conductive metallic materials.

As shown in Figure 11 to Figure 16, electrical connection module 230 includes the fixing vertical bar 240 of insulation being fixed on insulation fixed pedestal 210 and arranging along insulation connection seat 220 mobile route, the side of the fixing vertical bar 240 of insulation is located at by bus 231, electric contact piece 232 includes being located at the contact site 2321 being fixed with bus 231 side in the fixing vertical bar 240 of insulation, and contact site 2321 has recovery elasticity and contacts with bus 231 under recovering elastic effect.nullBased on this，Contacting between electric contact piece 232 with bus 231 is to realize under the effect that contact site 2321 recovers elastic，This makes，During electric contact piece 232 moves with insulation connection seat 220，As the expansion of spacing occurs between electric contact piece 232 and bus 231，Under the effect that contact site 2321 recovers elastic，To fill up, between contact site 2321 and bus 231, spacing occur，Avoid electric contact piece 232 and bus 231 that situation about disconnecting occurs，And such as there is occurring between contact site 2321 and bus 231 reducing of spacing，Then under the effect that contact site 2321 recovers elastic，Owing to contact site 2321 has recovery elasticity，Contact site 2321 can be made to produce deform further，Electric contact piece 232 or bus 231 is avoided to occur damaging or plastic deformation.

As is illustrated by figs. 11 and 12, the side that the fixing vertical bar 240 of insulation is corresponding with contact site 2321 offers the fixing groove 2401 for placing bus 231.Based on this, after bus 231 is placed into fixing groove 2401, bottom land and the both sides cell wall of fixing groove 2401 define the spacing of three directions to bus 231, plus contact site 2321 to bus 231 four direction spacing after, just bus 231 can be limited in fixing groove 2401, without other accessories, bus 231 is fixed again, be conducive to simplifying structure.

Further, as is illustrated by figs. 11 and 12, the groove depth of fixing groove 2401 offers the thickness in direction more than bus 231 at fixing groove 2401 notch, and contact site 2321 is through the notch of fixing groove 2401 and until contacting with bus 231.Based on this, after contact portion 2321 waiting touches bus 231, there is, with the cell wall of fixing groove 2401, interferences in contact site 2321 on the opening direction of fixing groove 2401, this makes the cell wall of fixing groove 2401 serve restriction bus 231 and offers the effect of direction slip along the notch of fixing groove 2401.

Further, as is illustrated by figs. 11 and 12, the fixing vertical bar 240 of insulation is provided with the limiting section 241 for preventing bus 231 from departing from from fixing groove 2401 notch at the both sides cell wall of fixing groove 2401.So, bus 231 can be directly limited in fixing groove 2401 by limiting section 241, and it is fixing to carry out auxiliary without contact site 2321.

As is illustrated by figs. 11 and 12, the fixing vertical bar 240 of insulation is wholely set with insulation fixed pedestal 210.So, molding in the lump during insulation fixed pedestal 210 molding, not only improve raising production efficiency, it is also possible to improve the bonding strength between the fixing vertical bar 240 of insulation and insulation fixed pedestal 210.Certainly, in other embodiments, the fixing vertical bar 240 of insulation can be arranged with split with insulation fixed pedestal 210, can be attached by bolt or buckle structure, fix vertical bar 240 and insulation fixed pedestal 210 one of them occurs that damage can individually be replaced, without integral replacing as insulated.

As shown in Figure 15 and Figure 16, contact site 2321 includes extending towards insulation fixed pedestal 210 and being fixed with conduction curving until the contact site 2321 of conflict bus 231 in the fixing vertical bar 240 of insulation.Based on this, it is elastic that contact site 2321 has good recovery, it is possible to effectively makes contact jaw conflict bus 231 under the effect that self-recovery is elastic.

Further, as shown in Figure 15 and Figure 16, electric contact piece 232 includes the free end being connected to contact site 2321 and extends towards insulation fixed pedestal 210 and towards deviating from the guide portion 2322 that fixing vertical bar 240 direction of insulation is obliquely installed.In conjunction with aforementioned all structures, contact site 2321 be assembled to bus 231 during, contact site 2321 vertical bar 240 fixing with insulation can interfere, and based on this structure, the first leading end with contact site 2321 of limiting section 241 of insulation connection seat 220 close in the fixing vertical bar 240 of insulation is conflicted, and compel contact site 2321 by leading end elastic deformation occurs, and until this limiting section 241 is crossed in the end of insulation connection seat 220, contact site 2321 is electrically connected with bus 231 under recovering elastic effect.

In embodiments of the present invention, electric contact piece 232 is made up of metal clips, and wherein, metal clips simple in construction, by simple punching press and bend, it is simple to produce.

As shown in Figure 11 to Figure 13, the fixing vertical bar 240 of insulation is provided with, in the end near insulation connection seat 220, the guiding slope 2402 coordinated with guide portion 2322.Based on this, by guiding coordinating of slope 2402 and guide portion 2322, according to mechanics, reduce some useless component, enable guiding slope 2402 that the active force of guide portion 2322 to be mostly used in and make guide portion 2322 drive contact site 2321 that elastic deformation occurs.

In embodiments of the present invention, as shown in 13 and Figure 14, electrical connection module 230 is provided with many groups, and the fixing vertical bar 240 of the insulation of arbitrary neighborhood is arranged side by side, wherein, the fixing vertical bar 240 of insulation that at least a pair adjacent and for fixing corresponding bus 231 side deviates from setting mutually.In conjunction with aforementioned all structures, this conductive structure 200 i.e. has self-locking performance, and guarantees that electrical connection module 230 is electrically connected to each other without other support members.Wherein, the fixing vertical bar 240 of insulation that two adjacent and for fixing corresponding bus 231 sides deviate from setting mutually is continuously every setting, this makes to insulate fixing three-dimensional both sides all by the elastic acting force of respective contact site 2321, the elastic acting force of both sides contact site 2321 is oppositely arranged, and cancels out each other.

In the present invention implements, as shown in 13 and Figure 14, at least a pair adjacent and that interval is arranged and side for fixing corresponding bus 231 is oppositely arranged fixing vertical bar 240 of insulation.Similarly, utilize this structure, increase the self-locking performance of conductive structure 200 further, and guarantee that electrical connection module 230 is electrically connected to each other without other support members.

As shown in 13 and Figure 14, electric contact piece 232 is provided with multiple, and arranges in array, specifically, electric contact piece 232 along insulation connection seat 220 moving direction or be perpendicular to insulation connection seat 220 moving direction interval arrange, to avoid adjacent electric contact piece 232 to come in contact.Further, insulation connection seat 220 is provided with the position limiting structure part 2201 preventing contact site 2321 from offseting along insulation connection seat 220 moving direction, can be in insulation connection seat 220 moving process, contact site 2321 offsets along insulation connection seat 220 moving direction, and causes the contact site 2321 being connected to come in contact.

As shown in figure 16, insulation connection seat 220 includes connecting base 221 and connecting lid 222, connect and be provided with the connection chamber corresponding with electric contact piece 232 position and quantitative relation between base 221 and connection lid 222, electric contact piece 232 realizes connecting with being connected base 221 by detachable supporting construction 100 within connecting chamber, wherein, electricity consumption device is also to be connected with electric contact piece 232 within connecting chamber.

As shown in figure 14, the mobile route of insulation connection seat 220 is straight line path.So, be conducive to the fixing vertical bar 240 of insulation and the structure of bus 231, profile structure can be used, improve production efficiency, simple production manufacturing cost.

As shown in Fig. 2 to Fig. 9, locking device 130 includes the first locking counterpart 131 being connected to the second support member 120 and is articulated with the second locking counterpart 132 of the first support member 110, first locking counterpart 131 is provided with hole clipping 1311, second locking counterpart 132 includes that being placed into hole clipping 1311 with pin joint for axis of rotation rotation coordinates the first support member 110 and grab 1321 of the second support member 120, the spacing that the distance of grab the 1321 to the second locking counterpart 132 pin joint and hole clipping 1311 to the second lock counterpart 132 to match with locking.

Based on this structure, in connection procedure, as shown in Figure 3, first the first support member 110 is abutted to the second support member 120, the second locking counterpart 132 is driven to rotate with pin joint for axis of rotation the most again, as shown in Figure 4, until the grab 1321 on the second locking counterpart 132 is placed to the hole clipping 1311 on the first locking counterpart 131, as shown in Figure 5, the second support member 120 is departed from by grab 1321 limits the first support member 110 towards hole wall near the second support member 120 in side and the hole clipping 1311 of the second support member 120, it is achieved thereby that the first support member 110 and connection of the second support member 120.

And in disconnection process, the second locking counterpart 132 is driven to rotate with pin joint for axis of rotation, and make the grab 1321 on the second locking counterpart 132 depart from the hole clipping 1311 on the first locking counterpart 131, i.e. achieve disconnecting of the first support member 110 and the second support member 120.

In above-mentioned, whole connection and disconnect the second locking counterpart 132 only need to be driven to rotate for axis of rotation with pin joint, wherein, the restriction that second locking counterpart 132 is rotated by the first locking counterpart 131, the rotational angle of the second locking counterpart 132 is respectively less than degree, that is to say that the second locking counterpart 132 need not can realize the locking to the first support member 110 and the second support member 120 around pin joint rotation repeatedly circle and coordinate.

As shown in Fig. 2 to Fig. 5 and Figure 10, locking device 130 includes intermediate connector 133, and intermediate connector 133 connects and the first support member 110, and the second locking counterpart 132 is articulated with intermediate connector 133.Based on this, the articulated structure coordinated with the second locking counterpart 132 can be arranged on intermediate connector 133, and need not will be arranged on the first support member 110, be conducive to simplifying the structure of the first support member 110, it is easy to the manufacturing of the first support member 110, reduces production cost.Specifically, in embodiments of the present invention, intermediate connector 133 can be removably connected to the first support member 110 by securing member, and wherein, securing member can be screw.

As shown in Fig. 2 to Fig. 5 and Figure 10, intermediate connector 133 includes the connection canned paragraph 1331 being connected with the first support member 110, and the first support member 110 is provided with to slip into for connection canned paragraph 1331 and limit and connects canned paragraph 1331 in the first spacing sliding chamber 1101 being perpendicular to sliding direction relative movement.So, during assembling, fixing for connection end is placed to the first spacing sliding cavity, after arriving precalculated position, it is fixed by securing member again, wherein, the first spacing sliding chamber 1101 connects now canned paragraph 1331 and is being perpendicular to section bar bearing of trend, only need to control to connect canned paragraph 1331 and arrive precalculated position at bearing of trend.

As shown in Figure 6 and Figure 7, first support member 110 includes the first structure base slab 111 and two panels the first outer panel 112, two panels the first outer panel 112 is both secured to the same side of the first structure base slab 111, the medial surface of the first outer panel 112 is equipped with the first chute 1121, and two first chutes 1121 are collectively forming the first spacing sliding chamber 1101.Based on this, on the premise of ensureing that the first support member 110 has preferable mechanical strength, simplify the first support member 110 simple in construction, and section bar can be used to make, and section bar is making mainly by die drawn molding, it is simple to manufacture.

As shown in Fig. 2 to Fig. 5 and Figure 10, intermediate connector 133 includes that the extension being placed in the second support member 120 coordinates section 1332, and the first support member 110 is provided with to slip into for extension counterpart and limit to extend and coordinates section 1332 in the second spacing sliding chamber 1201 being perpendicular to sliding direction relative movement.So, during assembling, will extend over cooperation section 1332 and be placed to the second spacing sliding cavity, after arriving precalculated position, it is fixed by the second locking counterpart 132 again, wherein, the second spacing sliding chamber 1201 connects now canned paragraph 1331 and is being perpendicular to section bar bearing of trend, only need to control to extend cooperation section 1332 and arrive precalculated position at bearing of trend.

See shown in Fig. 6 and Fig. 7, second support member 120 includes the second structure base slab and two panels the second outer panel, the all fixing the same side with the second structure base slab of two panels the second outer panel, the medial surface of the second outer panel is equipped with the second chute, and two second chutes are collectively forming the second spacing sliding chamber 1201.Based on this, on the premise of ensureing that the second support member 120 has preferable mechanical strength, simplify the second support member 120 simple in construction, and section bar can be used to make, and section bar is making mainly by die drawn molding, it is simple to manufacture.

The shape of cross section in the first spacing sliding chamber 1101 and the shape of cross section in the second spacing sliding chamber 1201 are identical, and the position in the sliding chamber 1201 spacing with second, position in the first spacing sliding chamber 1101 is correspondingly arranged.Based on this, the first support member 110 and the second support member 120 can use identical profile structure, and so, the first support member 110 and the second support member 120 can utilize same set of production equipment, advantageously reduce production cost.

Further, extend cooperation section 1332 to be wholely set with being connected canned paragraph 1331.Such that the bonding strength connected between canned paragraph 1331 with the extension section of cooperation 1332 can be improved, it is also possible to formed in the lump during producing connection canned paragraph 1331 and extend cooperation section 1332, and improve the production efficiency of intermediate connector 133.

Intermediate connector 133 can be the metallic plate that cross section is U-shaped or L-type is arranged, allow the first spacing sliding chamber 1101 limit fixing linkage section the most in the two directions in the plane falling in straight sliding direction move, meanwhile, also allowing the second spacing sliding chamber 1201 limit extension in the plane being perpendicular to sliding direction the most in the two directions coordinates section 1332 to move.Certainly, in embodiments of the present invention, intermediate connector 133 is the metallic plate of the U-shaped setting of cross section.

Intermediate connector 133 includes a pair being located at the gripper shoe extending cooperation section 1332, and the second locking counterpart 132 is provided with between two gripper shoes, and hinged with two gripper shoes by rotary shaft.Based on this, by two gripper shoes, the second locking counterpart 132 is supported, is conducive to improving the stability that the second locking counterpart 132 is hinged.

Further, two gripper shoes are wholely set with extending the section of cooperation 1332.So, be conducive to the bonding strength improving gripper shoe with extending between the section of cooperation 1332, and coordinate in section 1332 production process extending, in the lump gripper shoe can be produced, be conducive in the production efficiency improving supporting construction 100 entirety.Additionally, gripper shoe is wholely set with the extension section of cooperation 1332, it is possible to increase the second locking counterpart 132 is accurately positioned on intermediate connector 133.

Further, intermediate connector 133 includes limiting the card-bit part that the second locking counterpart 132 is rotated further after inserting hole clipping 1311 at grab 1321.This card-bit part is wholely set with gripper shoe.

First locking counterpart 131 is wholely set with the first support member 110, and the first locking counterpart 131 extends formation by the first support member 110 towards the second support member 120.So, be conducive to improving the bonding strength between the first support member 110 and the first locking counterpart 131, certainly, in the first support member 110 production process, in the lump the second locking counterpart 132 can be produced, be conducive in the production efficiency improving supporting construction 100 entirety.

As shown in Figure 8, the second locking counterpart 132 includes being provided with the handle 1322 rotated around pin joint for staff force to drive the second locking counterpart 132.So, it is simple to user rotates around pin joint by driving the second locking counterpart 132 between this handle 1322.

The present invention also proposes a kind of strip light, this strip light includes conductive mechanism free of discontinuities, the concrete structure of this conductive mechanism free of discontinuities is with reference to above-described embodiment, owing to this strip light have employed whole technical schemes of above-mentioned all embodiments, having all beneficial effects that the technical scheme of above-described embodiment is brought the most equally, this is no longer going to repeat them.

These are only presently preferred embodiments of the present invention, not in order to limit the present invention, all any amendment, equivalent or improvement etc. made within the spirit and principles in the present invention, should be included within the scope of the present invention.

Claims (10)

1. a conductive mechanism free of discontinuities, for strip light, it is characterised in that include supporting construction and many Individual conductive structure, wherein, described supporting construction includes the first support member, the second support member and for locking Coordinate described first support member and the locking device of described second support member, described first support member and described Two support members are all at least provided with one, and described first support member and described second support member are arranged alternately successively；

Described conductive structure includes that the insulation being connected to described first support member and/or described second support member is solid Determine pedestal may move the insulation connection seat being connected with described insulation fixed pedestal and be located at described insulation and fix Electrical connection module between pedestal and described insulation connection seat, described electrical connection module include being fixed on described absolutely Edge fixed pedestal and along described insulation connection seat mobile route arrange bus, be connected to described bus one The public connector of end, it is connected to the female connectors of the described bus other end and is fixed on described insulation and connects Seat and move with described insulation connection seat and keep the electric contact piece in electrical contact with described bus.

Conductive mechanism free of discontinuities the most as claimed in claim 1, it is characterised in that described electrical connection module bag Include the fixing vertical bar of insulation being fixed on described insulation fixed pedestal and arranging along described insulation connection seat mobile route, Described bus is located at described insulation and is fixed the side of vertical bar, and it is solid that described electric contact piece includes being located at described insulation Surely founding in bar the contact site being fixed with described bus side, described contact site has recovery elasticity and is recovering Contact with described bus under elastic effect.

Conductive mechanism free of discontinuities the most as claimed in claim 2, it is characterised in that the fixing vertical bar of described insulation The side corresponding with described contact site offers the fixing groove for placing described bus.

Conductive mechanism free of discontinuities the most as claimed in claim 3, it is characterised in that the groove depth of described fixing groove Offer the thickness in direction at described fixing groove notch more than described bus, described contact site is through described fixing The notch of groove is also until contacting with described bus.

Conductive mechanism free of discontinuities the most as claimed in claim 4, it is characterised in that the fixing vertical bar of described insulation Both sides cell wall at described fixing groove is provided with the limit for preventing described bus from departing from from described fixing groove notch Position portion.

Conductive mechanism free of discontinuities the most as claimed in claim 1, it is characterised in that described locking device includes It is connected to the first locking counterpart of described second support member and is articulated with the second lock of described first support member Interference fit, described first locking counterpart is provided with hole clipping, and described second locking counterpart includes with pin joint Rotate for axis of rotation and be placed into described hole clipping with locking described first support member of cooperation and described second support member Grab, described card is hooked to distance and the described hole clipping of described second locking counterpart pin joint to described second The spacing of locking counterpart matches.

Conductive mechanism free of discontinuities the most as claimed in claim 6, it is characterised in that described locking device includes Intermediate connector, described intermediate connector is connected to described first support member, described second locking counterpart hinge It is connected to described intermediate connector.

Conductive mechanism free of discontinuities the most as claimed in claim 7, it is characterised in that described intermediate connector bag Including the connection canned paragraph being connected with described first support member, described first support member is provided with to be fixed for described connection Section slips into and limits described connection canned paragraph in the be perpendicular to section bar bearing of trend relative movement first spacing sliding chamber.

Conductive mechanism free of discontinuities the most as claimed in claim 8, it is characterised in that described intermediate connector bag Including the extension being placed in described second support member and coordinate section, described second support member is provided with and coordinates for described extension Part slips into and limits described extension and coordinates section in the be perpendicular to section bar bearing of trend relative movement second spacing sliding chamber.

10. a strip light, it is characterised in that include nothing as in one of claimed in any of claims 1 to 9 It is interrupted conductive mechanism.