CN114811472A - Breakthrough realization high-efficiency portable power supply device soft lamp strip - Google Patents

Abstract

The invention discloses a breakthrough realization high-efficiency portable power supply device flexible lamp strip, belongs to the technical field of light-emitting devices, and comprises a silicon body and an integrated power supply device, wherein the integrated power supply device is arranged at the upper end of the outer surface of the silicon body, one end of the silicon body, which is used for installing the integrated power supply device, is provided with a first mounting groove, a filling mechanism is arranged inside the first mounting groove, one end of a connecting wire, which is far away from the integrated power supply device, is fixedly connected with a plurality of conductive wires, the integrated power supply device and the silicon body are installed through screws, the integrated power supply device is arranged at different positions at the top end of the outer surface of the silicon body, the power supply deficiency mode of the existing product is changed, meanwhile, the integrated power supply device is directly arranged on the surface of the product, the product is not required to be damaged, and a plurality of operations such as cutting, welding wires and the like are not required, so that the technical design is more convenient and detachable, meanwhile, the power supply can be supplemented by randomly installing a plurality of positions on the product, and the power supply is extremely convenient.

Description

Breakthrough realization high-efficiency portable power supply device soft lamp strip

Technical Field

The invention belongs to the technical field of light-emitting devices, and particularly relates to a breakthrough realization of a high-efficiency portable power supply device flexible light bar.

Background

The soft lamp strip is also called as an LED lamp strip, and the product shape is like a belt, so that the soft lamp strip can be called as a soft lamp strip, the light emitting color of the soft lamp strip is variable, the light can be adjusted, the color change can be controlled, and the effect of single color and RGB can be selected. Bringing colorful visual effect to the environment.

The soft light bar is currently applied to building application occasions such as urban high buildings, business buildings, commercial lighting and the like, along with the development of cities, the building structure is more modern and has rich geometric body structures, so the soft light bar has higher requirements in the design process so as to meet the existing building structure, however, when the length of the soft light bar installed on the outer wall of the high building in the vertical direction and the horizontal direction is too long, the product length is too long, a great voltage drop exists, at the moment, when the product is electrified and lightened, the brightness of the head end and the tail end is contrasted, the problem of uneven brightness of the whole light emitting surface is presented, at the moment, in order to solve the problem of uneven brightness of the light emitting surface of the soft light bar, the tail end of the product needs to be cut again, a welding wire and a plug is installed for supplying power, and therefore, the operation which needs to be done outside the high building is extremely inconvenient, the welding operation is particularly the operation that the difficulty and the controllability are increased for the high-altitude outdoor operation, and therefore, the breakthrough realization of the high-efficiency portable power supply device soft lamp strip is provided.

Disclosure of Invention

The invention aims to provide a breakthrough realization of a high-efficiency portable power supply device flexible lamp strip, which solves the problems of insufficient power supply and uneven brightness of the flexible lamp strip provided in the background technology by arranging an integrated power supply device on a silicon colloid.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a breakthrough realizes high-efficient portable power supply unit soft lamp strip, includes the colloidal silica body and integration power supply unit, integration power supply unit installs in the surface upper end of colloidal silica body, first mounting groove has been seted up to the one end of installing integration power supply unit on the colloidal silica body, the inside of first mounting groove is provided with fills the mechanism, a plurality of conductive silks of one end fixedly connected with of integration power supply unit are kept away from to the connecting wire, the internally mounted of colloidal silica body has the control panel, and is a plurality of conductive silk passes first mounting groove and is connected with the control panel electricity.

As a further scheme of the invention: the packing mechanism comprises a plurality of adjusting parts, wherein a limiting groove is formed in the inner side wall of one side of the first mounting groove, the first mounting groove is multiple in number, the adjusting parts are arranged in the silica gel body and are mounted in the first mounting groove, each adjusting part comprises a second rubber strip and a movable plate, the second rubber strips are fixedly connected with the inner side wall of the first mounting groove, and the movable plates extend to the inner parts of the second rubber strips and are connected with the second rubber strips in a sliding mode.

As a still further scheme of the invention: the movable plate is close to the one end fixedly connected with slider in spacing groove, the slider be located the inside in spacing groove and with colloidal silica sliding connection, the both sides of movable plate and the both sides of second rubber strip all set up with the inside wall laminating of first mounting groove.

As a still further scheme of the invention: the second rubber strip keeps away from two fixed plates of one end fixedly connected with of movable plate, two install the elastic component between the fixed plate, the elastic component is kept away from and is inwards sunken with the one end that sets up the movable plate on the regulating part of one side, and the movable plate that sets up on the adjacent regulating part is the overlap setting, and the elastic component is located the below of corresponding movable plate, utilizes the setting of sunken on elastic component and the elastic component, can utilize the elastic component to realize passing the spacing of first mounting groove conductive wire and connecting wire, and at this moment, the elasticity of utilizing elastic component self promotes the stability of conductive wire and connecting wire and colloidal silica installation.

As a still further scheme of the invention: the packing mechanism includes a plurality of first rubber strips, and is a plurality of first rubber strip is installed in the inside of first mounting groove, and is a plurality of first rubber strip is arranged at the inside equidistance of first mounting groove, and is a plurality of first rubber strip is through first mounting groove and colloidal silica joint, the promotion hole has been seted up on the movable plate, the degree of depth in promotion hole is 1/2 of movable plate thickness, the joint groove has been seted up to one side that the movable plate was kept away from to the second rubber strip, and two are adjacent the regulating part passes through joint groove and movable plate joint.

As a still further scheme of the invention: the control panel comprises a plurality of independent PCBA boards and two strand bare copper wires that form the chain form, the strand copper wire utilizes the silica gel material to quote crowded technique parcel altogether, and is a plurality of independent PCBA board forms electrical connection with two strand bare copper wires, and is a plurality of electrically conductive silk all passes first mounting groove and installs on two corresponding strand copper wires, and integrated power supply unit passes through electrically conductive silk and control panel electrical connection.

As a still further scheme of the invention: the last second mounting groove and the third mounting groove of still having seted up of colloidal silica, the third mounting groove is the setting of type of calligraphy, first mounting groove and third mounting groove link up the setting, the control panel passes through the third mounting groove and installs the inside at the colloidal silica, the colloidal silica end cap is installed respectively to the both ends of colloidal silica.

As a still further scheme of the invention: one side that the colloidal silica end cap is close to the colloidal silica sets up a plurality of stoppers, the colloidal silica end cap passes through a plurality of stopper joints in the inside second mounting groove and the third mounting groove that sets up of colloidal silica.

As a still further scheme of the invention: threaded holes are evenly formed in the silica gel body plug and the integrated power supply device, the integrated power supply device penetrates through the corresponding threaded holes through screws to achieve fixed connection with the silica gel body, the silica gel body plug penetrates through the corresponding threaded holes through screws to achieve fixed connection with the silica gel body, and a silica gel plug is arranged in the threaded hole, far away from one end of the silica gel body, of the integrated power supply device and the silica gel body plug.

As a still further scheme of the invention: the integrated power supply device comprises two pieces of brass with the thickness of 0.5mm, the two pieces of brass with the thickness of 0.5mm are formed through a nickel plating process, the two pieces of brass hardware with the thickness of 0.5mm are wrapped and shaped through a vertical injection molding process by utilizing a PE material, the surface of the integrated power supply device is completely wrapped through a vertical injection molding process by utilizing a PVC material, and the integrated power supply device is formed through a two-layer integrated forming wrapping process.

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

1. realize the installation of integration power supply unit and colloidal silica body through the screw, install integration power supply unit on the different positions on colloidal silica body surface top, change present product power supply insufficiency mode, simultaneously, directly install integration power supply unit at product surface, need not destroy product itself, also need not cut simultaneously, the bonding wire, a great deal of operations such as dress colloidal silica body plug, this technical design more has convenient the dismantlement, can a plurality of positions install wantonly on the product simultaneously and supply power, it is extremely convenient, high-efficient and reliable, the product possesses perfect wholeness and appearance structure, form superior waterproof performance, the problem that early mode can not adapt to current building structure completely among the prior art has been solved, according to present situation, the soft lamp strip of design more has safety, reliability, high-efficient solves on-the-spot whole appearance building structure and quick effectual installation power supply unit and solves soft lamp strip power supply insufficiency and leads to uneven luminance Even serious problems exist, reduce the extremely loaded down with trivial details installation procedure of operating personnel simultaneously and avoid welding at the high altitude and mend the important factor content of uncontrollable operation such as electricity, and integrated power supply unit includes two pieces of 0.5mm thickness brass, two pieces of 0.5mm thickness brass are formed through nickel plating process, then, through the PE material with two pieces of 0.5mm brass hardware through vertical injection moulding technology with its parcel design, the reuse PVC material is through vertical injection moulding technology with its complete parcel in surface, integrated power supply unit is by being formed by two layers of integrated into one piece parcel technology, consequently, integrated power supply unit possesses fabulous waterproof performance.

2. Through the length that sets up colloidal silica and control panel, the length to colloidal silica and control panel is set up on the length according to building structure level and vertical direction, set the length of colloidal silica and control panel to be unanimous with high building specification, thereby realize this device on product length, can increase the extension wantonly, theoretically can infinitely for long, use on the building structure length of satisfying the product level and vertical direction, and the setting of copper line on colloidal silica and the control panel, promote the flexible lamp strip and bear the buffering striking, utilize the bendability of copper line on colloidal silica and the control panel, change the direction of flexible lamp strip, realize the direction that flexible lamp strip set up.

3. Simultaneously, the inside a plurality of that sets up of soft lamp strip copper wire after independent PCBA board and the silica gel parcel can reduce the resilience force after soft lamp strip buckles to promote the stability after soft lamp strip buckles, soft lamp strip is at the in-process that uses, utilize the integrated power supply unit who depends on a plurality of optional positions on the product to carry out the moisturizing power supply, soft lamp strip is at the in-process that uses, because soft lamp strip detachable nature, further promote soft lamp strip possess convenient nimble and the nature controlled extremely strong and extremely efficient characteristic.

4. Utilize sunken setting on elastic component and the elastic component, can utilize the elastic component to realize passing the spacing of first mounting groove conductive filament and connecting wire, at this moment, utilize the elasticity of elastic component self to promote the stability of conductive filament and connecting wire and colloidal silica installation.

Drawings

Fig. 1 is a schematic structural diagram of a breakthrough implementation of a flexible light bar of a high-efficiency portable power supply device.

Fig. 2 is an enlarged view of a point a in fig. 1.

Fig. 3 is a schematic structural diagram of the integrated power supply device in fig. 2.

Fig. 4 is a schematic structural diagram of the silica gel in fig. 1.

Fig. 5 is an enlarged view at B in fig. 4.

Fig. 6 is a schematic diagram of the exploded structure of fig. 1 after being turned 180 °.

Fig. 7 is an enlarged view at C in fig. 6.

Fig. 8 is a structural schematic diagram of the state that the integrated power supply device in fig. 1 is mounted on a silicon body.

Fig. 9 is a partial structural view of another embodiment of the silica gel of fig. 8.

Fig. 10 is an enlarged view at D in fig. 9.

Fig. 11 is a schematic structural view of the adjusting member of fig. 10.

Fig. 12 is a positional relationship diagram of two adjusting members in fig. 11 mounted in a first mounting groove provided in the silicone body.

In the figure: 10. a colloidal silica body; 101. a first mounting groove; 102. a second mounting groove; 103. a third mounting groove; 11. a silica gel plug; 111. a limiting block; 12. a first rubber strip; 13. an adjustment member; 131. a second rubber strip; 132. moving the plate; 1321. a push hole; 1322. a slider; 1323. a limiting groove; 133. a fixing plate; 1331. an elastic member; 134. a clamping groove; 20. an integrated power supply device; 201. a connecting wire; 202. a conductive filament; 30. a control panel; 301. a screw; 302. and (5) a silica gel plug.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In addition, an element of the present invention may be said to be "fixed" or "disposed" to another element, either directly on the other element or with intervening elements present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Referring to fig. 1 to 12, in an embodiment of the present invention, a breakthrough realization high-efficiency portable power supply device flexible light bar includes a silicon body 10 and an integrated power supply device 20, a connection line 201 is disposed on the integrated power supply device 20, one end of the connection line 201 away from the integrated power supply device 20 is fixedly connected with a plurality of conductive wires 202, the integrated power supply device 20 is mounted at the upper end of the outer surface of the silicon body 10, a control board 30 is mounted inside the silicon body 10, the control board 30 is composed of a plurality of independent PCBA boards and two strand bare copper wires forming a chain shape, the strand copper wires are wrapped by using a silicone material with a co-extrusion technology, the plurality of independent PCBA boards are electrically connected with the two strand bare copper wires, the plurality of conductive wires 202 are mounted on the two corresponding strand copper wires through a first mounting groove 101, and the integrated power supply device 20 is electrically connected with the control board 30 through the conductive wires 202, first mounting groove 101, second mounting groove 102 and third mounting groove 103 have been seted up on colloidal silica 10, third mounting groove 103 is the setting of type of calligraphy, first mounting groove 101 and third mounting groove 103 link up the setting, control panel 30 passes through third mounting groove 103 and installs the inside at colloidal silica 10, colloidal silica end cap 11 is respectively installed to the both ends of colloidal silica 10 equally, the inside of first mounting groove 101 is provided with filling mechanism.

It should be noted that the integrated power supply device 20 includes two pieces of brass with a thickness of 0.5mm, the two pieces of brass with a thickness of 0.5mm are formed through a nickel plating process, then, the two pieces of brass hardware with a thickness of 0.5mm are wrapped and shaped through a PE material through a vertical injection molding process, the surface of the hardware is completely wrapped through a PVC material through a vertical injection molding process, and the integrated power supply device 20 is formed through a two-layer integral wrapping process, so that the integrated power supply device 20 has excellent waterproof performance.

Equally divide on colloidal silica end cap 11 and the integration power supply unit 20 and do not set up threaded hole, integration power supply unit 20 passes the screw hole that corresponds through screw 301 and realizes the fixed connection with colloidal silica 10, one side that colloidal silica end cap 11 is close to colloidal silica 10 sets up a plurality of stopper 111, colloidal silica end cap 11 passes the screw hole that corresponds through a plurality of stopper 111 joints in the inside second mounting groove 102 and the third mounting groove 103 that set up of colloidal silica 10, colloidal silica end cap 11 passes the fixed connection that the screw hole that corresponds realized with colloidal silica 10 through screw 301, the threaded hole that integration power supply unit 20 and colloidal silica end cap 11 kept away from one end of colloidal silica 10 is provided with silica plug 302.

It should be noted that, when the flexible light bar is arranged, the lengths of the silicone body 10 and the integrated power supply device 20 are arranged according to the height and width of a high-rise building, it should be noted that, for high-rise buildings with different structures, when the installed flexible light bar needs to be bent, the bent length of the flexible light bar is anticipated in advance, then, a plurality of integrated power supply devices 20 are installed on the corresponding outer surface of the silicone body 10, the installation of the integrated power supply devices 20 and the silicone body 10 is realized through screws 301, the integrated power supply devices 20 are installed at different positions on the top end of the outer surface of the silicone body 10, the power supply deficiency mode of the existing product is changed, meanwhile, the integrated power supply devices 20 are directly installed on the surface of the product, the product does not need to be damaged, and a plurality of operations such as cutting, welding lines, and a silicone body installing plug 11 are also not needed, and the technical design is more convenient and detachable, meanwhile, a plurality of positions can be randomly installed on the product for supplying power, the device is extremely convenient, efficient and reliable, the product has perfect integrity and appearance structure, excellent waterproof performance is formed, the service life is long, the length of the silicon gel 10 and the length of the control panel 30 are set according to the length of the horizontal direction and the vertical direction of the building structure by setting the lengths of the silicon gel 10 and the control panel 30, the length of the silicon gel 10 and the length of the control panel 30 are set to be consistent with the specification of a high-rise building, so that the device can be arbitrarily increased in extension and extension on the length of the product, theoretically, the device can be infinitely long, the requirement that the product is used on the length of the building structure in the horizontal direction and the vertical direction is met, copper wires are arranged on the silicon gel 10 and the control panel 30, the soft light bar is improved to bear buffering impact, and the direction of the soft light bar is changed by utilizing the bendability of the copper wires on the silicon gel 10 and the control panel 30, realize the direction that soft lamp strip set up, simultaneously, soft lamp strip is inside to be set up a plurality of copper wire after independent PCBA board and silica gel parcel can reduce the resilience force after soft lamp strip buckles, thereby promote the stability after soft lamp strip buckles, soft lamp strip is at the in-process that uses, utilize the integrated power supply unit 20 of depending on a plurality of optional positions on the product to mend the power supply, soft lamp strip is at the in-process that uses, because soft lamp strip detachable nature, further promote soft lamp strip to possess convenient flexibility and the nature controlled extremely strong and extremely efficient characteristic.

According to the embodiment 1 of the filling mechanism shown in fig. 1-8, the filling mechanism includes a plurality of first rubber strips 12, the plurality of first rubber strips 12 are installed inside a first installation groove 101, the plurality of first rubber strips 12 are arranged in the first installation groove 101 at equal intervals, and the plurality of first rubber strips 12 are clamped with a silicone body 10 through the first installation groove 101.

It should be noted that, when the integrated power supply device 20 is installed on the silicone body 10, the first rubber strip 12 at the corresponding position is detached according to the installation position of the integrated power supply device 20, at this time, the first installation groove 101 at the position corresponding to the detachment of the first rubber strip 12 is exposed, at this time, the plurality of conductive wires 202 arranged on the integrated power supply device 20 are all installed on the two corresponding multi-strand copper wires through the first installation groove 101, and the integrated power supply device 20 is electrically connected with the control board 30 through the conductive wires 202, then, the integrated power supply device 20 is installed on the silicone body 10 by using the screws 301, the screws 301 penetrate through the silicone body 10 to realize the connection between the integrated power supply device 20 and the silicone body 10, and finally, the silicone plugs 302 are placed in the threaded holes after the screws 301 are installed.

According to fig. 9 to 12, in an embodiment 2 of the filling mechanism, the filling mechanism includes a plurality of adjusting parts 13, a limiting groove 1323 is formed on an inner side wall of one side of the first installation groove 101, the plurality of adjusting parts 13 are disposed inside the silicone body 10, the plurality of adjusting parts 13 are all installed inside the first installation groove 101, each adjusting part 13 includes a second rubber strip 131 and a moving plate 132, the second rubber strip 131 is fixedly connected to the inner side wall of the first installation groove 101, the moving plate 132 extends into the second rubber strip 131 and is slidably connected to the second rubber strip 131, one end of the moving plate 132 close to the limiting groove 1323 is fixedly connected to a slider 1322, the slider 1322 is located inside the limiting groove 1323 and is slidably connected to the silicone body 1322 10, two sides of the moving plate 132 and two sides of the second rubber strip 131 are both attached to the inner side wall of the first installation groove 101, two fixing plates 133 are fixedly connected to one end, far away from the moving plate 132, of the second rubber strip 131, an elastic piece 1331 is installed between the two fixing plates 133, one end, far away from the same side, of the adjusting piece 13, of the moving plate 132 is recessed inwards, the elastic piece 1331 and the elastic piece 1331 are recessed, the elastic piece 1331 can be used for limiting the conductive wire 202 and the connecting wire 201 penetrating through the first mounting groove 101, at the moment, the elastic piece 1331 is used for improving the stability of the installation of the conductive wire 202 and the connecting wire 201 and the silica gel body 10, the moving plates 132 arranged on the adjacent adjusting pieces 13 are overlapped, the elastic piece 1331 is located below the corresponding moving plate 132, a pushing hole 1321 is formed in the moving plate 132, the depth of the pushing hole 1321 is 1/2 of the thickness of the moving plate 132, and a clamping groove 134 is formed in one side, far away from the moving plate 132, of the second rubber strip 131, two adjacent adjusting members 13 are clamped by the clamping groove 134 and the moving plate 132.

In addition, when the integrated power supply device 20 is installed, the cylindrical object is inserted into the limiting groove 1323 formed on the moving plate 132 to control the moving plate 132 to move on the second rubber strip 131 and the inner side wall of the first installation groove 101, thereby exposing the first mounting groove 101 at the corresponding position of the integrated power supply device 20, and at this time, the plurality of conductive wires 202 arranged on the integrated power supply device 20 are all installed on the corresponding two multi-strand copper wires through the first installation groove 101, and the integrated power supply device 20 is electrically connected with the control board 30 through the conductive wires 202, then, the integrated power supply device 20 is mounted on the silicone body 10 by using the screw 301, the screw 301 penetrates through the silicone body 10 to connect the integrated power supply device 20 and the silicone body 10, and finally, the silicone plug 302 is placed in the threaded hole after the screw 301 is mounted.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. The utility model provides a breakthroughs and realizes soft lamp strip of high-efficient portable power supply unit, includes colloidal silica (10) and integration power supply unit (20), its characterized in that, integration power supply unit (20) are installed in the surface upper end of colloidal silica (10), first mounting groove (101) have been seted up to the one end of installation integration power supply unit (20) on colloidal silica (10), the inside of first mounting groove (101) is provided with fills the mechanism, a plurality of conductive wire (202) of one end fixedly connected with of integration power supply unit (20) are kept away from in connecting wire (201), the internally mounted of colloidal silica (10) has control panel (30), and is a plurality of conductive wire (202) pass first mounting groove (101) and are connected with control panel (30) electricity.

2. The breakthrough realization efficient portable power supply device soft lamp bar according to claim 1, wherein the filling mechanism comprises a plurality of adjusting pieces (13), a limiting groove (1323) is formed in an inner side wall of one side of the first installation groove (101), the adjusting pieces (13) are arranged inside the silicon body (10), the adjusting pieces (13) are all arranged inside the first installation groove (101), the adjusting pieces (13) comprise a second rubber strip (131) and a moving plate (132), the second rubber strip (131) is fixedly connected with the inner side wall of the first installation groove (101), and the moving plate (132) extends to the inside of the second rubber strip (131) and is slidably connected with the second rubber strip (131).

3. The breakthrough realization efficient portable power supply device soft light bar according to claim 2, wherein one end of the moving plate (132) close to the limiting groove (1323) is fixedly connected with a slider (1322), the slider (1322) is located inside the limiting groove (1323) and is slidably connected with the silicon rubber body (10), and both sides of the moving plate (132) and both sides of the second rubber strip (131) are attached to the inner side wall of the first mounting groove (101).

4. The breakthrough realization high-efficiency portable power supply device flexible light bar according to claim 3, wherein one end of the second rubber strip (131) far away from the moving plate (132) is fixedly connected with two fixed plates (133), an elastic piece (1331) is installed between the two fixed plates (133), one end of the elastic piece (1331) far away from the moving plate (132) arranged on the adjusting piece (13) on the same side is recessed inwards, the moving plates (132) arranged on adjacent adjusting pieces (13) are arranged in an overlapping manner, and the elastic piece (1331) is located below the corresponding moving plate (132).

5. The breakthrough realization efficient portable power supply device soft light bar according to claim 4, wherein the filling mechanism comprises a plurality of first rubber strips (12), the first rubber strips (12) are installed inside the first installation groove (101), the first rubber strips (12) are arranged inside the first installation groove (101) at equal intervals, the first rubber strips (12) are clamped with the silicone body (10) through the first installation groove (101), the moving plate (132) is provided with a pushing hole (1321), the depth of the pushing hole (1321) is 1/2 of the thickness of the moving plate (132), one side, away from the moving plate (132), of the second rubber strip (131) is provided with a clamping groove (134), and two adjacent adjusting pieces (13) are clamped with the moving plate (132) through the clamping groove (134).

6. A breakthrough realization high-efficiency portable power supply soft light bar according to any one of claims 1 to 5, which is characterized in that the control board (30) is composed of a plurality of independent PCBA boards and two strands of bare copper wires formed into a chain shape, the strands of copper wires are wrapped by using a silicone material with a co-extrusion technology, the independent PCBA boards are electrically connected with the two strands of bare copper wires, a plurality of conductive wires (202) are installed on the corresponding two strands of copper wires through the first installation groove (101), and the integrated power supply device (20) is electrically connected with the control board (30) through the conductive wires (202).

7. The breakthrough realization efficient portable power supply device soft lamp bar according to claim 6, wherein the silicone body (10) is further provided with a second mounting groove (102) and a third mounting groove (103), the third mounting groove (103) is in a shape of a Chinese character 'tu', the first mounting groove (101) and the third mounting groove (103) are arranged in a penetrating manner, the control panel (30) is mounted inside the silicone body (10) through the third mounting groove (103), and both ends of the silicone body (10) are respectively provided with a silicone body plug (11).

8. The breakthrough realization efficient portable power supply device soft lamp strip according to claim 7, wherein one side of the silicone body plug (11) close to the silicone body (10) is provided with a plurality of limit blocks (111), and the silicone body plug (11) is clamped in a second mounting groove (102) and a third mounting groove (103) which are arranged inside the silicone body (10) through the plurality of limit blocks (111).

9. The breakthroughs of realizing the soft lamp strip of the high-efficient portable power supply device according to claim 8, wherein the silicon body plug (11) and the integrated power supply device (20) are respectively provided with a threaded hole, the integrated power supply device (20) passes through the corresponding threaded hole through a screw (301) to realize the fixed connection with the silicon body (10), the silicon body plug (11) passes through the corresponding threaded hole through a screw (301) to realize the fixed connection with the silicon body (10), and the silicon plug (302) is arranged in the threaded hole at one end of the integrated power supply device (20) and the silicon body plug (11) far away from the silicon body (10).

10. The flexible lamp strip for the breakthrough realization of the high-efficiency portable power supply device according to claim 9, wherein the integrated power supply device (20) comprises two pieces of brass with the thickness of 0.5mm, the two pieces of brass with the thickness of 0.5mm are formed by a nickel plating process, the two pieces of brass hardware with the thickness of 0.5mm are wrapped and shaped by a PE material through a vertical injection molding process, the surface of the hardware is completely wrapped by a PVC material through a vertical injection molding process, and the integrated power supply device (20) is formed by a two-layer integral wrapping process.

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