CN111370950A

CN111370950A - Data line storage equipment capable of automatically winding up

Info

Publication number: CN111370950A
Application number: CN202010296034.5A
Authority: CN
Inventors: 郑丽娟
Original assignee: Weihai Fudian Electronic Technology Co ltd
Current assignee: MEIZHOU HENGSHENGYU TECHNOLOGY ELECTRONIC Co.,Ltd.
Priority date: 2020-04-15
Filing date: 2020-04-15
Publication date: 2020-07-03
Anticipated expiration: 2040-04-15
Also published as: CN111370950B

Abstract

The invention discloses data line storage equipment capable of automatically winding lines, which comprises a storage cavity arranged in a machine body, wherein a spring cavity is arranged on the upper side of the storage cavity, a transmission cavity is arranged on the upper side of the spring cavity, a line winding device for winding the data lines together is arranged in the storage cavity, the line winding device comprises a first rotating shaft rotationally arranged on the lower side wall of the storage cavity, a winding drum is fixedly arranged at the tail end of the upper side of the first rotating shaft, and an auxiliary groove I is formed in the winding drum; the automatic data line recovery device is simple and convenient to operate and low in manufacturing cost, the automatic recovery of the data line can be realized through the spring force of the spring piece, when the data line is recovered, dust on the surface of the data line can be scraped through the rubber scraper, and the rubber scraper can be in sliding fit with the clamping groove III through the sliding block II, so that the rubber scraper is only in contact with the data line when the data line is recovered.

Description

Data line storage equipment capable of automatically winding up

Technical Field

The invention relates to the technical field of storage equipment, in particular to data line storage equipment capable of automatically winding lines.

Background

The data line is used for connecting the mobile equipment and the computer to achieve the purpose of data transmission or communication. Now, with the development of the electronic industry, data lines have become an indispensable part of our lives. The data lines are usually used together, so the winding condition often occurs, which causes trouble to users and is easy to cause safety accidents.

Disclosure of Invention

The invention aims to provide data line storage equipment capable of automatically winding lines, which is used for overcoming the defects in the prior art.

The data wire storage device capable of automatically winding comprises a machine body, wherein a storage cavity is arranged in the machine body, a spring cavity is arranged on the upper side of the storage cavity, a transmission cavity is arranged on the upper side of the spring cavity, a wire winding device for winding the data wire together is arranged in the storage cavity, the wire winding device comprises a first rotating shaft which is rotatably arranged on the lower side wall of the storage cavity, a winding drum is fixedly arranged at the tail end of the upper side of the first rotating shaft, a first auxiliary groove is formed in the winding drum, a first guide groove is formed in the upper side wall of the winding drum, a second guide groove which is communicated with the transmission cavity is formed in the upper side wall of the spring cavity, a second auxiliary groove which is communicated with the outside of the machine body is formed in the upper side wall of the transmission cavity, a first transmission shaft which upwards penetrates through the first guide groove and the second auxiliary groove and extends to the outside of the machine body is slidably arranged in, the auxiliary disc is rotationally arranged on the inner wall of the auxiliary groove II, a sleeve is sleeved on the transmission shaft I, the sleeve is rotationally arranged between the spring cavity and the containing cavity, a first clamping groove is symmetrically formed in the left and right positions of the inner wall of the guide groove I, a first clamping block is fixedly arranged in the first clamping groove, the first clamping block is fixedly arranged at the lower side end of the transmission shaft, a cleaning opening communicated with the outside of the machine body is formed in the left side wall of the containing cavity, a limiting groove communicated with the outside of the machine body is formed in the right side wall of the containing cavity, and an automatic containing device for automatically taking up wires is arranged in the spring cavity; and sequentially passing the data wire through the limiting groove, the first auxiliary groove and the cleaning port, rotating the first transmission shaft, and driving the winding drum to rotate to wind the data wire on the winding drum.

On the basis of the technical scheme, the automatic storage device comprises a spring piece fixedly arranged between the sleeve and the inner wall of the spring cavity, a first auxiliary plate is fixedly arranged at the tail end of the lower side of the sleeve, a second clamping block is fixedly arranged on the annular array of the lower side wall of the first auxiliary plate, a second auxiliary plate is fixedly arranged on the first transmission shaft, the second auxiliary plate is positioned on the lower side of the first auxiliary plate, a second clamping groove in sliding fit with the second clamping block is formed in the annular array of the upper side wall of the second auxiliary plate, a second auxiliary disc is fixedly arranged at the tail end of the upper side of the first transmission shaft, a first spring is fixedly arranged between the second auxiliary disc and the first auxiliary disc, a cleaning device for cleaning the data line when the data line is recovered is arranged in the cleaning hole, and a limiting device for limiting the cleaning device to only take effect when the data.

On the basis of the technical scheme, the cleaning device comprises a third guide groove formed in the upper side of the cleaning opening, a fourth guide groove communicated with the cleaning opening is formed in the lower side wall of the third guide groove, a first sliding block is arranged in the third guide groove in a sliding mode, a sliding rod is arranged in the fourth guide groove in a sliding mode, the tail end of the upper side of the sliding rod is fixedly arranged on the first sliding block, a rubber scraper is fixedly arranged at the tail end of the lower side of the sliding rod, a communicating groove communicated with the transmission cavity is formed in the upper side wall of the third guide groove, a cord is fixedly arranged on the upper side wall of the first sliding block, and the cord penetrates through the communicating groove and extends into the transmission cavity.

On the basis of the technical scheme, the limiting device comprises a second rotating shaft which is rotatably arranged on the lower side wall of the transmission cavity, a rope winding wheel is fixedly arranged at the tail end of the upper side of the second rotating shaft, a first auxiliary cavity is formed in the rope winding wheel, a first disc is arranged in the first auxiliary cavity, a third auxiliary groove which is communicated with the outside of the rope winding wheel is formed in the upper side wall of the first auxiliary cavity, a second transmission shaft which extends in the three directions of the second auxiliary groove is fixedly arranged on the upper side wall of the first disc, an auxiliary wheel is fixedly arranged at the tail end of the upper side of the second transmission shaft, a second auxiliary cavity is formed in the auxiliary wheel, a second disc is arranged in the second auxiliary cavity, a fourth auxiliary groove which is communicated with the outside of the auxiliary wheel is formed in the upper side wall of the second auxiliary cavity, a third transmission shaft which extends in the four directions of the auxiliary groove and is rotatably arranged on the, the rope winding device is characterized in that a second gear meshed with the first gear is fixedly arranged on the first transmission shaft, a fifth guide groove is formed in the lower side wall of the second disc, sliding blocks are symmetrically arranged in the fifth guide groove in a sliding mode, springs are fixedly arranged between the second sliding blocks on two sides, a third clamping groove in sliding fit with the second sliding blocks is formed in the inner wall of the second auxiliary cavity, a sixth guide groove is formed in the annular array of the first disc, semicircular clamping pins are slidably arranged in the sixth guide groove, a third spring is fixedly arranged between the semicircular clamping pins and the bottom of the sixth guide groove, a fourth clamping groove in sliding fit with the semicircular clamping pins is formed in the annular array of the inner wall of the first auxiliary cavity, and the rope extending into the transmission cavity is fixedly arranged on the rope winding wheel.

The invention has the beneficial effects that: the automatic data line recovery device is simple and convenient to operate and low in manufacturing cost, the automatic recovery of the data line can be realized through the spring force of the spring piece, when the data line is recovered, dust on the surface of the data line can be scraped through the rubber scraper, and the rubber scraper can be in sliding fit with the clamping groove III through the sliding block II, so that the rubber scraper is only in contact with the data line when the data line is recovered.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic front view of a data line storage device capable of automatically retrieving lines according to the present invention;

FIG. 2 is a schematic view of the structure at A-A in FIG. 1;

FIG. 3 is an enlarged view of the structure at B in FIG. 1;

FIG. 4 is an enlarged view of the structure at C in FIG. 1;

FIG. 5 is an enlarged view of the structure at D in FIG. 1;

FIG. 6 is an enlarged view of the auxiliary wheel of FIG. 4;

fig. 7 is an enlarged view of the structure of the rope winding wheel in fig. 4.

Detailed Description

The invention will now be described in detail with reference to fig. 1-7, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1 to 7, the data line storage device capable of automatically winding lines according to the embodiment of the invention includes a machine body 10, a storage cavity 27 is provided in the machine body 10, a spring cavity 21 is provided on an upper side of the storage cavity 27, a transmission cavity 17 is provided on an upper side of the spring cavity 21, a line winding device 64 for winding a data line 28 together is provided in the storage cavity 27, the line winding device 64 includes a first rotating shaft 25 rotatably provided on a lower side wall of the storage cavity 27, a winding drum 26 is fixedly provided at an upper end of the first rotating shaft 25, an auxiliary groove 24 is provided on the winding drum 26, a first guide groove 30 is provided on an upper side wall of the winding drum 26, a second guide groove 20 communicated with the transmission cavity 17 is provided on an upper side wall of the spring cavity 21, an auxiliary groove 18 communicated with the outside of the machine body 10 is provided on an upper side wall of the transmission cavity 17, a first transmission shaft 14 extending to the outside the machine body 10 upwards through the second guide groove 20 and the auxiliary groove 18 is, an auxiliary disc I13 is sleeved on the transmission shaft I14 in the auxiliary groove II 18, the auxiliary disc I13 is rotatably arranged on the inner wall of the auxiliary groove II 18, a sleeve 34 is sleeved on the transmission shaft I14, the sleeve 34 is rotatably arranged between the spring cavity 21 and the accommodating cavity 27, clamping grooves I31 are symmetrically formed in the left and right positions on the inner wall of the guide groove I30, clamping blocks I23 are fixedly arranged in the clamping grooves I31, the clamping blocks I23 are fixedly arranged at the lower side end of the transmission shaft I14, a cleaning opening 61 communicated with the outside of the machine body 10 is formed in the left side wall of the accommodating cavity 27, a limiting groove 48 communicated with the outside of the machine body 10 is formed in the right side wall of the accommodating cavity 27, and an automatic accommodating device 65 for automatically winding up is arranged in the spring cavity 21; the data wire 28 sequentially passes through the limiting groove 48, the first auxiliary groove 24 and the cleaning opening 61, the first transmission shaft 14 is rotated, and the first transmission shaft 14 drives the winding drum 26 to rotate so as to wind the data wire 28 on the winding drum 26.

In addition, in one embodiment, the automatic receiving device 65 includes a spring plate 22 fixed between the sleeve 34 and the inner wall of the spring chamber 21, the lower end of the sleeve 34 is fixedly provided with a first auxiliary plate 35, the lower side wall of the first auxiliary plate 35 is fixedly provided with a second clamping block 36 in an annular array, a second auxiliary plate 38 is fixedly arranged on the first transmission shaft 14, the second auxiliary plate 38 is positioned at the lower side of the first auxiliary plate 35, a second clamping groove 37 which is in sliding fit with the second clamping block 36 is formed in the annular array on the upper side wall of the second auxiliary plate 38, an auxiliary disc II 15 is fixedly arranged at the tail end of the upper side of the transmission shaft I14, a spring I16 is fixedly arranged between the auxiliary disc II 15 and the auxiliary disc I13, the cleaning port 61 is provided with a cleaning device 66 for cleaning the data line 28 when it is recovered, a limiting device 67 which limits the cleaning device 66 to be effective only in recovery is arranged in the transmission cavity 17; pulling the data line 28 to drive the reel 26 to rotate, the reel 26 driving the first transmission shaft 14 to rotate, the first transmission shaft 14 driving the second auxiliary plate 38 to rotate, the second auxiliary plate 38 driving the first auxiliary plate 35 to rotate through the second clamping slot 37 and the second clamping block 36, the first auxiliary plate 35 driving the sleeve 34 to rotate, the sleeve 34 rotating to compress the spring piece 22, when the data line 28 is released, the sleeve 34 rotating reversely through the spring force of the spring piece 22 to drive the reel 26 to rotate reversely, and the data line 28 is rewound on the reel 26.

In addition, in one embodiment, the cleaning device 66 includes a third guide groove 60 disposed on the upper side of the cleaning opening 61, a fourth guide groove 63 communicating with the cleaning opening 61 is formed on the lower side wall of the third guide groove 60, a first sliding block 59 is slidably disposed in the third guide groove 60, a sliding rod 62 is slidably disposed in the fourth guide groove 63, the upper end of the sliding rod 62 is fixedly disposed on the first sliding block 59, a rubber wiper 29 is fixedly disposed on the lower end of the sliding rod 62, a communicating groove 32 communicating with the transmission cavity 17 is formed on the upper side wall of the third guide groove 60, a cord 33 is fixedly disposed on the upper side wall of the first sliding block 59, and the cord 33 extends into the transmission cavity 17 through the communicating groove 32; when the data wire 28 is recovered, dust and the like adhering to the data wire 28 are scraped off by frictional engagement with the rubber blade 29.

In addition, in one embodiment, the limiting device 67 includes a second rotating shaft 42 rotatably disposed on a lower side wall of the transmission cavity 17, a second rope winding wheel 43 is fixedly disposed at an upper end of the second rotating shaft 42, a first auxiliary cavity 52 is disposed in the second rope winding wheel 43, a first disc 41 is disposed in the first auxiliary cavity 52, a third auxiliary groove 40 communicating with the outside of the second rope winding wheel 43 is disposed on an upper side wall of the first auxiliary cavity 52, a second transmission shaft 44 extending upward through the third auxiliary groove 40 is fixedly disposed on an upper side wall of the first disc 41, an auxiliary wheel 46 is fixedly disposed at an upper end of the second transmission shaft 44, a second auxiliary cavity 45 is disposed in the auxiliary wheel 46, a second disc 47 is disposed in the second auxiliary cavity 45, a fourth auxiliary groove 39 communicating with the outside of the auxiliary wheel 46 is disposed on an upper side wall of the second auxiliary cavity 45, a third transmission shaft 12 extending upward through the fourth auxiliary groove 39 and rotatably disposed on an upper side wall of the transmission cavity 17 is fixedly disposed, a first gear 11 is fixedly arranged on the third transmission shaft 12, a second gear 19 meshed with the first gear 11 is fixedly arranged on the first transmission shaft 14, a guide groove five 56 is formed on the lower side wall of the second disc 47, sliding blocks two 54 are symmetrically arranged in the guide groove five 56 in a sliding mode, a spring two 57 is fixedly arranged between the sliding blocks two 54 on the two sides, a third clamping groove 55 which is in sliding fit with the second sliding block 54 is formed in the inner wall of the second auxiliary cavity 45 in an annular array, a sixth guide groove 53 is formed in the first disk 41 in an annular array, a semicircular clamping pin 49 is slidably arranged in the sixth guide groove 53, a third spring 51 is fixedly arranged between the semicircular bayonet lock 49 and the bottom of the sixth guide groove 53, a fourth clamping groove 50 in sliding fit with the semicircular bayonet lock 49 is formed in an annular array on the inner wall of the first auxiliary cavity 52, and the wire rope 33 extending into the transmission cavity 17 is fixedly arranged on the rope winding wheel 43; when the data line 28 is elongated, the first transmission shaft 14 is meshed with the first gear 11 through the second gear 19 to drive the third transmission shaft 12 to rotate, the third transmission shaft 12 drives the second auxiliary wheel 46 to rotate through the second sliding block 54, the second auxiliary wheel 46 drives the second transmission shaft 44 to rotate, the second transmission shaft 44 drives the first sliding block 59 to move upwards through the rope 33 by driving the second rope winding wheel 43 to rotate through the semicircular bayonet 49, so that the squeegee 29 is disengaged from the data line 28, and when the cord 33 is tightened, the semicircular clamping pin 49 is pushed into the guide groove six 53 through the clamping groove four 50, so that the rope winding wheel 43 stops rotating, the rope 33 is prevented from being snapped, and when the data wire 28 is recovered, because the second sliding block 54 is in sliding fit with the third clamping groove 55, the third transmission shaft 12 cannot drive the auxiliary wheel 46 to rotate.

In an initial state, the second spring 57, the fourth spring 58 and the third spring 51 are all in a semi-compressed state, so that the second sliding blocks 54 on the two sides are always away from each other, the rubber scraper 29 is always pressed downwards, the semicircular clamping pin 49 is always pushed outwards, the first spring 16 is in a relaxed state, the first gear 11 is meshed with the second gear 19, and the second clamping block 36 is clamped in the second clamping groove 37.

When the device starts to work, the data wire 28 sequentially passes through the limiting groove 48, the first auxiliary groove 24 and the cleaning opening 61, the second auxiliary disc 15 is pressed downwards, the first gear 11 is disengaged from the second gear 19, the second clamping block 36 is separated from the second clamping groove 37, and the first transmission shaft 14 is rotated, so that the data wire 28 is wound on the winding drum 26.

When the data cable 28 is drawn, the winding drum 26 drives the first transmission shaft 14 to rotate, the first transmission shaft 14 drives the third transmission shaft 12 to rotate by the engagement of the second gear 19 and the first gear 11, and the third transmission shaft 12 drives the rubber scraper 29 to move upwards by the limiting device 67 to separate from the data cable 28.

When the data wire 28 is recovered, the spring plate 22 makes the sleeve 34 drive the first transmission shaft 14 to rotate reversely, so that the data wire 28 is rewound on the winding drum 26, and at the same time, the first transmission shaft 14 cannot drive the rubber scraper 29 to move upwards under the action of the limiting device 67, so that the data wire 28 scrapes off dust on the surface of the rubber scraper 29 by rubbing with the rubber scraper 29.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a but data line storage device of automatic receipts line, includes the organism, its characterized in that: the machine body is internally provided with a containing cavity, a spring cavity is arranged on the upper side of the containing cavity, a transmission cavity is arranged on the upper side of the spring cavity, a wire coiling device for coiling data wires together is arranged in the containing cavity, the wire coiling device comprises a first rotating shaft rotationally arranged on the lower side wall of the containing cavity, a winding drum is fixedly arranged at the tail end of the upper side of the first rotating shaft, an auxiliary groove I is formed in the winding drum, a first guide groove is formed in the upper side wall of the winding drum, a second guide groove communicated with the transmission cavity is formed in the upper side wall of the spring cavity, a second auxiliary groove communicated with the outside of the machine body is formed in the upper side wall of the transmission cavity, the first guide groove is slidably provided with a first transmission shaft which upwards penetrates through the second guide groove and extends to the outside of the machine body, a first auxiliary disc is sleeved on the first transmission shaft in the second auxiliary groove, a sleeve is sleeved on the first transmission shaft, the sleeve is rotatably arranged between the spring cavity and the containing cavity, a first clamping groove is symmetrically formed in the inner wall of the first guide groove at the left and right positions, a first clamping block is fixedly arranged in the first clamping groove, the first clamping block is fixedly arranged at the lower side end of the transmission shaft, a cleaning opening communicated with the outside of the machine body is formed in the left side wall of the containing cavity, a limiting groove communicated with the outside of the machine body is formed in the right side wall of the containing cavity, and an automatic containing device for automatically taking up wires is arranged in the spring cavity; and sequentially passing the data wire through the limiting groove, the first auxiliary groove and the cleaning port, rotating the first transmission shaft, and driving the winding drum to rotate to wind the data wire on the winding drum.

2. The data line storage equipment capable of automatically winding according to claim 1, characterized in that: the automatic storage device comprises a spring piece fixedly arranged between the sleeve and the inner wall of the spring cavity, a first auxiliary plate is fixedly arranged at the tail end of the lower side of the sleeve, a second clamping block is fixedly arranged on the annular array of the lower side wall of the first auxiliary plate, a second auxiliary plate is fixedly arranged on the first transmission shaft, the second auxiliary plate is positioned on the lower side of the first auxiliary plate, a second clamping groove in sliding fit with the second clamping block is formed in the annular array of the upper side wall of the second auxiliary plate, a second auxiliary disc is fixedly arranged at the tail end of the upper side of the first transmission shaft, a first spring is fixedly arranged between the second auxiliary disc and the first auxiliary disc, a cleaning device for cleaning the data line when the data line is recovered is arranged in the cleaning hole, and a limiting device for limiting the cleaning device to only take effect when the data line.

3. The data line storage equipment capable of automatically winding according to claim 2, characterized in that: the cleaning device comprises a third guide groove formed in the upper side of the cleaning opening, a fourth guide groove communicated with the cleaning opening is formed in the lower side wall of the third guide groove, a first sliding block is arranged in the third guide groove in a sliding mode, a sliding rod is arranged in the fourth guide groove in a sliding mode, the tail end of the upper side of the sliding rod is fixedly arranged on the first sliding block, a rubber scraper is fixedly arranged at the tail end of the lower side of the sliding rod, a communicating groove communicated with the transmission cavity is formed in the upper side wall of the third guide groove, a cord is fixedly arranged on the upper side wall of the first sliding block, and the cord penetrates through the communicating groove and extends into the transmission cavity.

4. The data line storage equipment capable of automatically winding according to claim 2, characterized in that: the limiting device comprises a second rotating shaft which is rotatably arranged on the lower side wall of the transmission cavity, the tail end of the upper side of the second rotating shaft is fixedly provided with a rope winding wheel, a first auxiliary cavity is arranged in the first auxiliary cavity, the upper side wall of the first auxiliary cavity is provided with a third auxiliary groove communicated with the outside of the rope winding wheel, the upper side wall of the first disc is fixedly provided with a second transmission shaft extending in three directions through the second auxiliary groove, the tail end of the upper side of the second transmission shaft is fixedly provided with an auxiliary wheel, the inner side of the auxiliary wheel is provided with a second auxiliary cavity, the inner side wall of the second auxiliary cavity is provided with a fourth auxiliary groove communicated with the outside of the auxiliary wheel, the upper side wall of the second auxiliary cavity is fixedly provided with a third transmission shaft which extends in four directions through the auxiliary groove and is rotatably arranged on the upper side wall of the transmission cavity, the third transmission shaft is fixedly provided with a first gear, and the first transmission shaft is fixedly provided, the lower side wall of the disc II is provided with a guide groove V, sliding blocks II are symmetrically arranged in the guide groove V in a sliding mode, springs II are fixedly arranged between the sliding blocks II on two sides, a clamping groove III in sliding fit with the sliding block II is formed in the inner wall of the auxiliary cavity II, a guide groove VI is formed in the annular array on the disc I, a semicircular clamping pin is arranged in the guide groove VI in a sliding mode, a spring III is fixedly arranged between the semicircular clamping pin and the bottom of the guide groove VI, a clamping groove IV in sliding fit with the semicircular clamping pin is formed in the annular array on the inner wall of the auxiliary cavity I, and the rope extending into the transmission cavity is fixedly arranged on the rope winding wheel.