CN111564738A - Conductive sliding rail mechanism - Google Patents

Abstract

The invention discloses a conductive sliding rail mechanism, which comprises a fixed cover in a square structure and a fixed shaft arranged on the inner wall of the fixed cover, wherein the side wall of the fixed shaft is sleeved with a reset winding drum in which a torsion spring is arranged, and the side wall of the reset winding drum is connected with a flexible winding belt in a winding way, the invention realizes the operation of winding and sealing a conductive strip through the flexible winding belt, so that the conductive strip can not easily contact with water, meanwhile, the flexible winding belt can drive the conductive strip to move freely to be suitable for different layout positions, when in specific implementation, a user only pulls out the flexible winding belt wound on the reset winding drum by pulling a sealing sheet, and the flexible winding belt can drive a fixed platform to move together in the pulling-out process, thereby facilitating subsequent fixation, and only properly bending the flexible winding belt even if places needing to turn exist in the layout process, without resorting to other components.

Description

Conductive sliding rail mechanism

Technical Field

The invention relates to the technical field of conductive sliding rails, in particular to a conductive sliding rail mechanism.

Background

The conductive sliding rail is used for supplying power to electrical appliances such as a lamp and the like, has small volume and simple manufacture, and does not have the winding and wiring problem caused by using a power line and the power safety problem that the insulating outer wall of the power line is ignited.

Common electrically conductive slide rail in the existing market, it often can face a problem in the use, in case need electrically conductive with electrical apparatus, its position of laying is great, and if there is the place that needs to turn round in the process of laying, just can only separately lay with the help of a plurality of equipment, so the operation is very loaded down with trivial details complicated, and a plurality of equipment it need seal waterproof region also great when fixed, if the operation is improper just can appear the electrically conductive phenomenon of local electric leakage.

Disclosure of Invention

Therefore, the invention provides a conductive slide rail mechanism, which aims to solve the problems that in a conductive slide rail in the prior art, when a place needing to turn exists, the conductive slide rail can be separately arranged only by virtue of a plurality of devices, so that the operation is complicated, the area of the plurality of devices needing to be sealed and waterproof is large when the conductive slide rail is fixed, and the phenomenon of local electric leakage and conduction can occur if the conductive slide rail is not operated properly.

In order to achieve the above purpose, the invention provides the following technical scheme:

a conductive sliding rail mechanism comprises a fixed cover in a square structure and a fixed shaft arranged on the inner wall of the fixed cover, wherein a reset winding drum is sleeved on the side wall of the fixed shaft; a torsion spring is sleeved on the fixed shaft, and one end of the torsion spring, which is far away from the fixed shaft, is connected with the reset winding drum; the side wall of the reset winding drum is connected with a flexible winding belt in a winding mode, the surface of one side, close to the reset winding drum, of the flexible winding belt is provided with a plurality of conductive strips, openings are formed in two sides of each conductive strip, and the cross sections of the conductive strips are in an I-shaped structure due to the openings; edge sealing strips are arranged on the edges of the two sides of the flexible winding belt, and the edge sealing strips are positioned on one side of the flexible winding belt away from the conductive strips;

when the flexible winding belt is pulled out, the flexible winding belt drives the reset winding drum to rotate along a first direction, and the torsion spring stores power and tends to drive the winding drum to rotate along a second direction opposite to the first direction so as to wind the flexible winding belt.

Optionally, two sides of the conductive bar are provided with a rectangular opening, an electric connection bar is mounted on the inner wall of each opening, the electric connection bar includes a plurality of straight pieces connected with the conductive bar, and the plurality of straight pieces are distributed on the conductive bar at equal intervals; a bent sheet is connected between two adjacent straight sheets, and a plurality of connecting grooves in a V-shaped structure are arranged on the surface of the bent sheet;

connect the one end that the electric strip is close to the fixed axle with the lateral wall of the winding bobbin that resets is connected, be connected with a plurality of electricity utilization seats on the busbar, the electricity utilization seat is including sliding the platform of inlaying, sliding the transversal shape of personally submitting of platform of inlaying, just sliding the lateral wall of inlaying the platform and having seted up the square groove, sliding the surface mounting who inlays the platform has the lamp stand.

Optionally, a through-slot is formed in the inner surface of the fixing cover, a fixing table is connected in the through-slot, the fixing table is provided with a V-shaped opening, and the width of the opening of the fixing table is set in a linearly decreasing trend from one side close to the fixing cover to one side far away from the fixing cover; the two ends of the fixed table are both connected with hook embedding blocks in U-shaped structures.

Optionally, the edge sealing strip comprises two insulating strips symmetrically installed on the surface of the flexible winding strip, and the cross section of each insulating strip is of a font structure; the inner wall of the sealing strip is provided with an expansion block, the side wall of the expansion block is provided with a plurality of grooves, and the surface of the expansion block is provided with a plurality of anti-sliding tables; the side wall of the sealing strip is provided with a V-shaped clip spring which is used for clamping the hooking and embedding block.

Optionally, the surface through connection of fixed station has the fixed column, the rubber ring is installed to the lateral wall of fixed column, the fixed column is kept away from the V type open-ended one end of fixed station is connected with the anticreep piece that is Y type structure, the sheet rubber that is used for blocking the rubber ring is installed to the inner wall of anticreep piece.

Optionally, connect the electricity strip to keep away from one side of busbar is equipped with the splashproof piece, the splashproof piece is splayed and outwards opens and carry out the return shell fragment of fixing a position with the busbar both sides opening inner wall connection, the surface mounting of splashproof piece has a plurality of return shell fragments that are used for to the cunning platform of inlaying, just the return shell fragment tends to follow and supports the pressure with opening opposite direction the splashproof piece, the return shell fragment with the busbar is connected.

Optionally, one end of the flexible winding belt is connected with the side face of the reset winding drum, the other end of the flexible winding belt is connected with a sealing sheet, and a rubber sealing block embedded into the opening of the conductive bar is mounted on the surface of the sealing sheet.

Optionally, the winding section of thick bamboo that resets establish at the fixed axle lateral wall including the cover and with connect the electrically conductive cover that the electricity strip is connected the torsion spring sleeve of cover establishing in the fixed axle outside is all installed at the both ends of electrically conductive cover, the torsional spring is kept away from the one end of fixed axle is connected the torsion spring sleeve, the torsion spring sleeve is kept away from the one end lateral wall of electrically conductive cover and is installed the transversal right trapezoid's of personally submitting correction piece.

Optionally, the fixed shaft consists of a power connection shaft and an insulation shaft; connect the electricity axle to be connected with the conductive sleeve, insulating axle installation connect the electricity axle both ends and with fixed cover inner wall connection, the lateral wall of insulating axle is installed and is carried out spacing screens piece to the torsional spring sleeve, the one end that insulating axle was kept away from to the screens piece is installed and is covered the internal wall connection's with fixed external electricity strip that draws.

Optionally, the inner wall of the conductive sleeve is of a circular structure, the outer side wall of the conductive sleeve is of a quadrilateral structure, and an arc strip is installed at each of four corner positions of the outer side wall of the conductive sleeve.

The invention has the following advantages:

the flexible winding belt is used for realizing the winding and sealing operation of the conductive strip, so that the conductive strip can not easily contact with water, meanwhile, the flexible winding belt can drive the conductive strip to move freely to be suitable for different layout positions, when the flexible winding belt is specifically implemented, a user only pulls the sealing sheet to pull out the flexible winding belt wound on the reset winding drum, and even if places needing turning exist in the layout process, the user only needs to bend the flexible winding belt properly without other parts, and the flexible winding belt is simple and convenient to operate.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structures, ratios, sizes, and the like shown in the present specification are only used for matching with the contents disclosed in the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions that the present invention can be implemented, so that the present invention has no technical significance, and any structural modifications, changes in the ratio relationship, or adjustments of the sizes, without affecting the effects and the achievable by the present invention, should still fall within the range that the technical contents disclosed in the present invention can cover.

FIG. 1 is a schematic overall structure diagram of an embodiment of the present invention;

FIG. 2 is a side cross-sectional structural view of an embodiment of the present invention;

FIG. 3 is a top partial cross-sectional view of an embodiment of the present invention;

FIG. 4 is a schematic diagram of a cross-sectional side view of a conductive sleeve according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a front view of a conductive strip according to an embodiment of the present invention;

fig. 6 is a schematic view of a lamp socket according to an embodiment of the present invention mounted on a flexible coiled strip;

fig. 7 is a schematic structural diagram of an electrical appliance holder according to an embodiment of the present invention.

In the figure:

1-fixing the cover; 2, fixing a shaft; 3-resetting the winding drum; 4-a flexible wound tape; 5-a conductive strip; 6-edge sealing strip; 7-connecting the electric strip;

101-a card slot; 102-a stationary table; 103-hook embedded block; 104-fixed column; 105-a rubber ring; 106-anti-drop block; 107-rubber sheet;

201-connecting shaft; 202-an insulated shaft; 203-a block of stuck bits; 204-external conducting strip;

301-a conductive sleeve; 302-torsion spring sleeve; 303-a corrective patch; 304-arc bar;

401-sealing sheet; 402-rubber seal block;

601-sealing strip; 602-an expansion block; 603-grooves; 604-slip prevention; 605-card spring;

701-straight piece; 702-a curved sheet; 703-connecting grooves; 704-electric appliance base; 705-slide embedding platform; 706-lamp holder; 707-splash guard; 708-a return spring sheet; 709-square groove.

Detailed Description

The present invention is described in terms of particular embodiments, other advantages and features of the invention will become apparent to those skilled in the art from the following disclosure, and it is to be understood that the described embodiments are merely exemplary of the invention and that it is not intended to limit the invention to the particular embodiments disclosed. 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.

As shown in fig. 1, 2 and 3, the invention provides a conductive sliding rail mechanism, which comprises a fixing cover 1 in a square structure and a fixing shaft 2 installed on the inner wall of the fixing cover 1, wherein a reset winding drum 3 with a torsion spring arranged inside is sleeved on the side wall of the fixing shaft 2, the torsion spring is sleeved on the fixing shaft 2, and one end of the torsion spring, which is far away from the fixing shaft 2, is connected with the reset winding drum 3.

The side wall of the reset winding drum 3 is connected with a flexible winding belt 4 in a winding way, the surface of one side, close to the reset winding drum 3, of the flexible winding belt 4 is provided with a plurality of conducting bars 5 with I-shaped cross sections, and the surface of the other side of the flexible winding belt 4 is provided with an edge sealing strip 6; the flexible winding strip 4 is provided with edge sealing strips 6 along the edges of the two sides, and the edge sealing strips 6 are positioned on the side of the flexible winding strip 4 far away from the conductive strips 5.

When the flexible winding tape 4 is pulled out, the flexible winding tape 4 drives the reset winding drum 3 to rotate along a first direction, and the torsion spring stores power and tends to drive the reset winding drum 3 to rotate along a second direction opposite to the first direction so as to wind the flexible winding tape 4.

When the conductive sliding rail is used, if the conductive sliding rail needs to be arranged, a user can directly fix the fixing cover 1 at the moment, and then pull out the flexible winding belt 4 wound on the side wall of the reset winding drum 3. It can be understood that, before use, the flexible winding belt 4 is wound on the side wall of the reset winding drum 3, and because the edge sealing strip 6 is arranged on the flexible winding belt 4, after the flexible winding belt 4 is wound into a circle, a sealing cavity is formed between the edge sealing strip 6 and the flexible winding belt 4, at this time, the conductive strip 5 is located in the sealing cavity, and external water vapor and raindrops cannot easily contact the conductive strip 5, so that the purpose of sealing and waterproofing can be achieved. When the flexible winding belt 4 is pulled out to a proper position, the pulled flexible winding belt 4 can be fixed, and even if the layout position has an area needing turning, the flexible winding belt 4 is only required to be properly bent, so that the application range of the equipment is wider.

As shown in fig. 1, 2, 3, 5, 7 and 6, the conductive strip 5 has a plurality of openings on both sides thereof, which allow the conductive strip 5 to have an i-shaped cross-section. The inner wall of the two side font openings of the conductive strip 5 is provided with an electricity connecting strip 7, the electricity connecting strip 7 comprises a plurality of straight sheets 701 connected with the conductive strip 5, and the plurality of straight sheets 701 are distributed on the conductive strip 5 at equal intervals.

A bent piece 702 is installed between two adjacent straight pieces 701, the surface of the bent piece 702 is provided with a plurality of connecting grooves 703 in a V-shaped structure, one end of an electric connecting strip 7 close to the fixed shaft 2 is connected with the side wall of the reset winding drum 3, the electric conducting strip 5 is connected with a plurality of electric appliance seats 704, each electric appliance seat 704 comprises a sliding embedding table 705, the cross section of each sliding embedding table 705 is in a square shape, the side wall of each sliding embedding table 705 is provided with a square groove 709, and the surface of each sliding embedding table 705 is provided with a lamp holder 706.

When conducting operation is performed on the conductive bar 5, only the conductive bar 5 is inserted into the square groove 709 on the sliding-embedding stage 705, so that the sliding-embedding stage 705 slides against the two power receiving strips 7 on the conductive bar 5 as shown in fig. 6 and 7, and the sliding-embedding stage 705 is provided with a power receiving copper sheet, which is specifically far away from the reference track lamp, and when the sliding-embedding stage 705 slides to a proper position, the power receiving strip 7 can supply power to the sliding-embedding stage 705, so that the lamp holder 706 is lighted.

In the laying process, if there is an area needing to turn, only the bent conductive strip 5 and the power connection strip 7 are used, when the power connection strip 7 is bent, the straight piece 701 cannot move, but the bent piece 702 is stretched, and the connection groove 703 is gradually opened, so that the bent piece 702 cannot be broken and protruded, and the bent part of the conductive strip 5 is arc-shaped, so that the movable sliding-embedding platform 705 can normally move.

When the conductive strip 5 is wound on the reset winding cylinder 3, the connecting strip 7 is also wound on the reset winding cylinder 3, because the inner wall of the conductive sleeve 301 is in a circular structure, the outer side wall of the conductive sleeve 301 is in a quadrilateral structure, and the four corners of the outer side wall of the conductive sleeve 301 are respectively provided with the arc strips 304, the straight piece 701 is located at the flat part of the outer side wall of the conductive sleeve 301, and the bending piece 702 is located at the arc strips 304, so that the bending piece 702 can move along the bending track of the arc strips 304, the bending piece 702 cannot be bent and broken, and in order to enable the bending piece 702 to be bent in a normal movable manner, a plurality of V-shaped grooves can also be arranged on the side surface of the bending piece 702, and when the bending piece 702 is bent, the V-shaped grooves on the side surface can be gradually stretched, so that the bending piece 702 can be bent in a.

As shown in fig. 2 and 3, a through slot 101 is formed in the inner surface of the fixing cover 1, a fixing stage 102 is connected in the through slot 101, the fixing stage 102 has a V-shaped opening, and the opening width of the fixing stage 102 is set in a linearly decreasing trend from a side close to the fixing cover 1 to a side far from the fixing cover 1; the two ends of the fixed table 102 are connected with hook blocks 103 in a U-shaped structure.

The two ends of the fixed table 102 are both connected with the hook blocks 103 in a U-shaped structure, and the side wall of the sealing strip 601 is provided with a V-shaped clip spring 605 for clipping the hook blocks 103.

When the flexible winding tape 4 is gradually pulled out, the flexible winding tape can take the insulation strip 601 to move together, once the clip sheet 605 on the insulation strip 601 contacts the hooking block 103, the hooking block 103 can press the clip sheet 605, so that the clip sheet 605 contacts the side surface of the hooking block 103, and when the clip sheet 605 moves to the U-shaped opening of the hooking block 103, the hooking block 103 can be clamped, so that the clip sheet 605 can take the hooking block 10 to move together. The opening of the hook embedding block 103 with the U-shaped structure can be sealed, so that the clip elastic sheet 605 can not be easily separated; the hook insert 10 can move with the fixed platform 102 to gradually slide out of the through slot 101, and then a user can fix the fixed platform 102 at different positions to fix the layout track of the fixed platform 102.

And when flexible winding area 4 was withdrawed the back, fixed station 102 can be driven by flexible winding area 4 to slide in logical draw-in groove 101, in order to play the effect of accomodating fixed station 102.

As shown in fig. 1, 3 and 5, the edge sealing strip 6 includes two insulation strips 601 symmetrically installed on the surface of the flexible winding strip 4 and covering the plurality of conductive strips 5, the cross section of the insulation strip 601 is in a shape like a Chinese character 'ji', an expansion block 602 is installed on the inner wall of the insulation strip 601, a plurality of grooves 603 are formed on the side wall of the expansion block 602, and a plurality of sliding prevention tables 604 are installed on the surface of the expansion block 602.

When the flexible winding belt 4 is wound, the two insulation strips 601 are also wound together to form a multilayer ring, at the moment, the inner insulation strip 601 is tightly attached to the outer flexible winding belt 4, the outer flexible winding belt 4 is tightly pressed on the expansion block 602 in the inner insulation strip 601, the expansion block is pressed into the insulation strip 601, then the grooves 603 are squeezed, the expansion block 602 can be fully tightly attached to the flexible winding belt 4, gaps between the insulation strip 601 and the flexible winding belt 4 are avoided, the anti-skid table 604 can play a role in skid resistance, and the situation that the insulation strip 601 deviates is avoided.

The manufacturing materials of all the structures in the device can be selected from common materials on the market and adjusted according to actual conditions when being used specifically.

As shown in fig. 3, a fixing column 104 is connected to the surface of the fixing base 102 in a penetrating manner, a rubber ring 105 is mounted on the side wall of the fixing column 104, an anti-falling block 106 having a Y-shaped structure is connected to one end of the fixing column 104 away from the V-shaped opening of the fixing base 102, and a rubber sheet 107 for clamping the rubber ring 105 is mounted on the inner wall of the anti-falling block 106.

When the fixed platforms 102 slide into the through slot 101, the fixed column 104 on the first fixed platform 102 is clamped into the anti-falling block 106 on the second fixed platform 102, so that the rubber sheet 107 on the anti-falling block 106 is clamped into the column rubber ring 105, and the second fixed platform 102 fixes the first fixed platform 102, and the process is repeated until all the fixed platforms 102 are fixed.

As shown in fig. 1, 3, 5, 7, and 6, a splash-proof sheet 707 is disposed on a side of the power connection strip 7 away from the power connection strip 5, the splash-proof sheet 707 is splayed outward and connected to inner walls of openings on two sides of the power connection strip 5, a plurality of return elastic sheets 708 for positioning the slide-embedding stage 705 are mounted on a surface of the splash-proof sheet 707, the return elastic sheets 708 tend to press the splash-proof sheet 707 in a direction opposite to the splayed direction, and the return elastic sheets 708 are connected to the power connection strip 5.

The splash-proof sheet 707 is arranged to fix the position of the splash-proof sheet 707 through the return elastic sheet 708, and seal the openings at two sides of the conductive strip 5, so as to prevent external water vapor from splashing into the openings at two sides of the conductive strip 5, and when the slide-embedding platform 705 is inserted onto the conductive strip 5, the splash-proof sheet 707 and the return elastic sheet 708 are pushed away together, so that the splayed splash-proof sheet 707 clamps the slide-embedding platform 705, and the slide-embedding platform 705 cannot easily shake.

One end of the flexible winding belt 4 is connected with the side surface of the reset winding drum 3, the other end of the flexible winding belt 4 is connected with a sealing sheet 401, and a rubber sealing block 402 embedded into an I-shaped opening of the conductive bar 5 is installed on the surface of the sealing sheet 401.

The sealing sheet 401 is arranged to seal the opening of the square structure on the fixing cover 1 when the flexible winding tape 4 is wound, so that external water vapor cannot enter the fixing cover 1, and the rubber sealing block 402 is arranged to seal the i-shaped opening at the end of the conductive strip 5.

As shown in fig. 1, 2 and 4, the reset winding drum 3 includes a conductive sleeve 301 which is sleeved on the outer side wall of the fixed shaft 2 and connected with the power connection strip 7, torsion spring sleeves 302 which are sleeved on the outer side of the fixed shaft 2 are respectively installed at two ends of the conductive sleeve 301, one end of the torsion spring which is far away from the fixed shaft 2 is connected with the torsion spring sleeve 302, and a correction piece 303 with a right trapezoid cross section is installed on the outer side wall of one end of the torsion spring sleeve 302 which is far away from the conductive sleeve 301.

When the flexible winding belt 4 is wound on the conductive sleeve 301, the winding operation is performed through the torsion spring sleeve 302, that is, the torsion spring is arranged on the inner side wall of the torsion spring sleeve 302, when the flexible winding belt 4 is pulled out, the torsion spring sleeve 302 rotates along with the conductive sleeve 301 to stretch the torsion spring, and then once the flexible winding belt 4 is not fixed, the torsion spring in the torsion spring sleeve 302 is reset to drive the torsion spring sleeve 302 and the conductive sleeve 301 together, so that the flexible winding belt 4 is wound, and the position of the flexible winding belt 4 can be corrected through the correction sheet 303 with the right trapezoid cross section, so that the situation of winding deflection cannot easily occur when the flexible winding belt 4 is wound.

As shown in fig. 1, the fixed shaft 2 is composed of an electric connection shaft 201 connected with a conductive sleeve 301 and an insulation shaft 202 installed at two ends of the electric connection shaft 201 and connected with the inner wall of the fixed cover 1, a position clamping block 203 for limiting the torsion spring sleeve 302 is installed on the outer side wall of the insulation shaft 202, and an external electric leading strip 204 connected with the inner wall of the fixed cover 1 is installed at one end, far away from the insulation shaft 202, of the position clamping block 203.

When the fixing cover 1 is fixed, current can be introduced through the external power conducting strip 204 and the power line, then the clamping block 203 can guide the current to the power connecting shaft 201, the clamping block 203 can limit the correcting sheet 303, so that the correcting sheet 303 cannot be easily inclined, and the insulating shaft 202 is arranged to avoid the phenomenon of electric leakage.

According to the invention, the operation of winding and sealing the conductive strip 5 is realized through the flexible winding belt, so that the conductive strip 5 cannot easily contact water, and meanwhile, the flexible winding belt 4 can drive the conductive strip 5 to move freely to be suitable for different layout positions; even if a place needing to turn is arranged, the flexible winding strip 4 is only required to be properly bent without other parts, and the operation is simple and convenient.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (10)

1. A conductive sliding rail mechanism is characterized by comprising a fixed cover (1) in a square structure and a fixed shaft (2) arranged on the inner wall of the fixed cover (1), wherein the side wall of the fixed shaft (2) is sleeved with a reset winding drum (3); a torsion spring is sleeved on the fixed shaft (2), and one end of the torsion spring, which is far away from the fixed shaft (2), is connected with the reset winding drum (3); the side wall of the reset winding drum (3) is connected with a flexible winding belt (4) in a winding mode, a plurality of conductive strips (5) are mounted on the surface of one side, close to the reset winding drum (3), of the flexible winding belt (4), openings are formed in the two sides of each conductive strip (5), and the cross sections of the conductive strips (5) are in I-shaped structures due to the openings; edge sealing strips (6) are arranged on the edges of the two side edges of the flexible winding belt (4), and the edge sealing strips (6) are positioned on one side, away from the conducting strips (5), of the flexible winding belt (4);

when the flexible winding belt (4) is pulled out, the flexible winding belt (4) drives the reset winding drum (3) to rotate along a first direction, and the torsion spring stores force and tends to drive the winding drum (3) to rotate along a second direction opposite to the first direction so as to wind the flexible winding belt (4).

2. The conductive sliding rail mechanism according to claim 1, wherein the conductive strip (5) has openings in shape of Chinese character 'ji' on both sides, the inner walls of the openings are provided with the electric connecting strips (7), the electric connecting strips (7) comprise a plurality of straight pieces (701) connected with the conductive strip (5), and the plurality of straight pieces (701) are distributed on the conductive strip (5) at equal intervals; a bent piece (702) is connected between two adjacent straight pieces (701), and a plurality of connecting grooves (703) in a V-shaped structure are arranged on the surface of the bent piece (702);

connect electric strip (7) be close to the one end of fixed axle (2) with the lateral wall of the winding drum that resets (3) is connected, be connected with a plurality of consumer seats (704) on conducting strip (5), consumer seat (704) is including sliding and inlaying platform (705), the cross section of sliding and inlaying platform (705) is the square shape of personally submitting, just sliding and inlaying the lateral wall of platform (705) and seted up square groove (709), sliding and inlaying the surface mounting of platform (705) has lamp stand (706).

3. The conductive sliding rail mechanism according to claim 1, wherein the inner surface of the fixing cover (1) is provided with a through clamping groove (101), a fixing table (102) is connected in the through clamping groove (101), the fixing table (102) is provided with a V-shaped opening, and the width of the opening of the fixing table (102) is set in a linearly decreasing trend from the side close to the fixing cover (1) to the side far away from the fixing cover (1); both ends of the fixed table (102) are connected with hook embedding blocks (103) in a U-shaped structure.

4. The conductive sliding rail mechanism according to claim 3, wherein the edge sealing strip (6) comprises two insulating strips (601) symmetrically arranged on the surface of the flexible winding belt (4), and the cross section of each insulating strip (601) is in a character-shaped structure; an expansion block (602) is installed on the inner wall of the insulation sealing strip (601), a plurality of grooves (603) are formed in the side wall of the expansion block (602), and a plurality of sliding prevention tables (604) are installed on the surface of the expansion block (602); the side wall of the insulation sealing strip (601) is provided with a V-shaped elastic clamping sheet (605) for clamping the hook embedding block (103).

5. The conductive sliding rail mechanism according to claim 3, wherein a fixing column (104) penetrates through the surface of the fixing table (102), a rubber ring (105) is installed on the side wall of the fixing column (104), an anti-falling block (106) in a Y-shaped structure is connected to one end, away from the V-shaped opening of the fixing table (102), of the fixing column (104), and a rubber sheet (107) for clamping the rubber ring (105) is installed on the inner wall of the anti-falling block (106).

6. The conductive sliding rail mechanism according to claim 1, wherein a splash-proof sheet (707) is arranged on one side of the power receiving bar (7) far away from the conductive bar (5), the splash-proof sheet (707) is splayed and outwards opened and is connected with the inner walls of openings on two sides of the conductive bar (5), a plurality of return elastic sheets (708) used for positioning the slide embedding table (705) are mounted on the surface of the splash-proof sheet (707), the return elastic sheets (708) tend to press the splash-proof sheet (707) along the opposite direction to the opening, and the return elastic sheets (708) are connected with the conductive bar (5).

7. The conductive sliding rail mechanism according to claim 1, wherein one end of the flexible winding belt (4) is connected with the side of the reset winding drum (3), the other end of the flexible winding belt (4) is connected with a sealing sheet (401), and a rubber sealing block (402) embedded in the opening of the conductive strip (5) is mounted on the surface of the sealing sheet (401).

8. The conductive sliding rail mechanism according to claim 1, wherein the reset winding drum (3) comprises a conductive sleeve (301) sleeved on the outer side wall of the fixed shaft (2) and connected with the power strip (7), torsion spring sleeves (302) sleeved on the outer side of the fixed shaft (2) are installed at both ends of the conductive sleeve (301), one end of the torsion spring, which is far away from the fixed shaft (2), is connected with the torsion spring sleeves (302), and a correction piece (303) with a right trapezoid cross section is installed on the outer side wall of one end, which is far away from the conductive sleeve (301), of the torsion spring sleeves (302).

9. The conductive sliding rail mechanism according to claim 1, wherein the fixed shaft (2) is composed of an electric connecting shaft (201) and an insulating shaft (202); connect electric axle (201) to be connected with conductive sleeve (301), insulating axle (202) are installed and are connect electric axle (201) both ends and with fixed cover (1) inner wall connection, the lateral wall of insulating axle (202) is installed and is carried out spacing screens piece (203) to torsion spring sleeve (302), screens piece (203) are kept away from the one end of insulating axle (202) and are installed and cover (1) inner wall connection's external electricity strip (204) with fixed.

10. The conductive sliding rail mechanism as claimed in claim 8, wherein the inner wall of the conductive sleeve (301) is of a circular structure, the outer side wall of the conductive sleeve (301) is of a quadrilateral structure, and an arc bar (304) is installed at each of four corner positions of the outer side wall of the conductive sleeve (301).

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