Storage device with anti-oxidation structure for cable production

A storage device, anti-oxidation technology, applied in biological packaging, transportation and packaging, sustainable packaging, etc., can solve the problems of prone to cables, shaking, structural confusion, etc., to improve the coefficient of friction, prevent detachment, and facilitate collection. Effect

Active Publication Date: 2020-11-27
上海华勤线缆有限公司
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AI-Extracted Technical Summary

Problems solved by technology

[0004] The purpose of the present invention is to provide a storage device with an anti-oxidation structure for cable production, so as to solve the problem that the existing cable storage device proposed in the above background technology is often used for simple storage by users. The water molecules in the...
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Method used

Both sides of bearing platform 7 are provided with fixing hole 8, and the inwall middle part of body 1 is provided with slide rail 9, and the inwall of slide rail 9 is bonded with slide block 10, and slide block 10 is distributed away from one end of slide rail 9 and is wired The bobbin chuck 11, and the middle part of the bobbin chuck 11 is welded with a take-up post 12, the bobbin chuck 11 slides back and forth along the inner wall of the slide rail 9 through the slider 10, and the slider 10 is along the central axis of the bobbin chuck 11 symmetrically distributed, when the user needs to put the bobbin chuck 11 into the collection device, the user can slide the sliders 10 on both sides of the bobbin chuck 11 along the inner wall of the slide rail 9, and the slide rails at both ends 9. Limit and fix the bobbin chuck 11 to prevent the bobbin chuck 11 from shaking in the equipment during transportation, resulting in unstable structure and damage to the whole equipment;
Finally, the user puts the cables that need to be stored into the collection device one by one, rotates the door body 4, and the door body 4 rotates axially along the center of the hinge 3, and the door body 4 on both sides seals the body 1 treatment, to play a certain anti-corrosion function, and the user can move the body 1 to a suitable position through the roller 2.
Now when the user needs to put the bobbin chuck 11 into the collection device, the user can slide the sliders 10 on both sides of the bobbin chuck 11 along the inner wall of the slide rail 9, and the sliding blocks at both ends The rail 9 limits and fixes the bobbin chuck 11. At the same time, the take-up column 12 penetrates into the penetrating rod 13. The inner wall of the take-up post 12 and the outer wall of the penetrating rod 13 fit together, and the penetrating rod 13 is a pair of take-up rods. The column 12 is fixed and limited vertically to prevent the take-up column 12 from detaching. At the same time, the outer wall of the take-up column 12 adopts a threaded design, which can improve the friction coefficient of the surface of the take-up column 12, which is convenient for the subsequent collection of cables, and when the take-up column 12 is fully penetrated into the penetration rod 13, the user can close the cover 15, and the clamping ring 16 in the cover 15 fits with one end of the penetration rod 13, reducing the penetration of the penetration rod 13 and the clamping ring 16. The gap between the cover 15 penetrates into one end of the rod 13, and fits with the other side of the bobbin chuck 11. At the same time, the embedded rods 17 on both sides of the cover 15 are embedded in the fixing hole 8, and the caps 7 are closed. The cover 15 is fixed to prevent the cover 15 from breaking away from the bobbin chuck 11 during fixing;
Please refer to Fig. 1-5, the present invention provides a kind of technical scheme: a kind of storage device with anti-oxidation structure for cable production, including body 1, roller 2, hinge 3, door body 4, handle 5, dividing plate 6. Bearing platform 7, fixing hole 8, slide rail 9, slider 10, bobbin chuck 11, take-up column 12, penetration rod 13, fixing plate 14, cover 15, clamping ring 16, embedded rod 17 , penetration hole 18, limit rod 19, fixed head 20, nut 21, first compression spring 22, ball 23, second compres...
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Abstract

The invention relates to a storage device with an antioxidant structure for cable production. The storage device comprises a machine body and door bodies, and idler wheels are distributed on the two sides of the lower end of the machine body. Hinges are distributed on the two sides of the outer wall of the machine body; the door bodies are distributed on the other sides of the hinges; a handle isarranged on one side of each door body; and a partition plate is welded to the middle portion of the machine body, bearing platforms are arranged at the upper end of the inner wall of the machine body, fixing holes are formed in the two sides of each bearing platform, sliding rails are arranged in the middle of the inner wall of the machine body, sliding blocks are attached to the inner walls of the sliding rails, bobbin chucks are distributed at the ends, away from the sliding rails, of the sliding blocks, and take-up columns are welded to the middle portions of the bobbin chucks. Through thearrangement of the machine body and the bearing platforms, the bearing platforms are evenly distributed on the inner side of the machine body at equal intervals, the whole bearing platforms serve asa fixed supporting structure, the whole cambered surface is of a semicircular design and is matched with the state of a cable after take-up, the whole bearing platforms apply supporting force upwards,and the situation that penetrating rods are bent due to long-time placement is prevented.

Application Domain

Bio-packagingFilament handling

Technology Topic

Structural engineeringBobbin +3

Image

  • Storage device with anti-oxidation structure for cable production
  • Storage device with anti-oxidation structure for cable production
  • Storage device with anti-oxidation structure for cable production

Examples

  • Experimental program(1)

Example Embodiment

[0026] The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, but not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative efforts shall fall within the protection scope of the present invention.
[0027] see Figure 1-5 , the present invention provides a technical solution: a storage device with an anti-oxidative structure for cable production, comprising a body 1, a roller 2, a hinge 3, a door body 4, a handle 5, a partition 6, a bearing platform 7, and a fixing hole 8 , slide rail 9, slider 10, spool chuck 11, take-up post 12, penetration rod 13, fixing plate 14, cover 15, clamping ring 16, embedded rod 17, penetration hole 18, limit rod 19. Fixed head 20, nut 21, first compression spring 22, ball 23, second compression spring 24 and third compression spring 25, rollers 2 are distributed on both sides of the lower end of the body 1, and two sides of the outer wall of the body 1 are distributed with The hinge 3, the door body 4 are distributed on the other side of the hinge 3, and one side of the door body 4 is provided with a handle 5, the middle part of the body 1 is welded with a partition 6, and the upper end of the inner wall of the body 1 is provided with a platform 7, which supports the The top of the platform 7 is distributed in an arc shape, and the support platform 7 is evenly distributed on the inside of the body 1 at equal distances. The entire support platform 7 is used as a fixed support structure, and the entire arc surface adopts a semi-circular design, which is consistent with the state after the cable is taken up. The entire support platform 7 exerts a supporting force upward to prevent the bending of the penetration rod 13 due to long-term placement;
[0028] There are fixing holes 8 on both sides of the support platform 7, a slide rail 9 is arranged in the middle of the inner wall of the body 1, and the inner wall of the slide rail 9 is fitted with a slider 10, and the end of the slider 10 away from the slide rail 9 is distributed with a wire barrel chuck 11, and the middle of the spool chuck 11 is welded with a take-up post 12, the spool chuck 11 slides back and forth along the inner wall of the slide rail 9 through the slider 10, and the slider 10 is symmetrically distributed along the central axis of the spool chuck 11 , when the user needs to put the spool chuck 11 into the collection device, the user can slide the sliders 10 on both sides of the spool chuck 11 along the inner wall of the slide rail 9, and the slide rails 9 at both ends are aligned The spool chuck 11 is limited and fixed to prevent the spool chuck 11 from shaking in the equipment during transportation, resulting in unstable structure and damage to the entire equipment;
[0029] The size of the inner wall of the take-up post 12 and the size of the penetration rod 13 cooperate with each other, and the outer wall of the wire take-up post 12 is distributed in a thread shape. The outer walls of the rods 13 are attached to each other, and the penetration rods 13 fix and limit the wire take-up post 12 longitudinally to prevent the wire take-up post 12 from being detached. The friction coefficient is convenient for subsequent collection of cables;
[0030] A penetration rod 13 is provided in the middle of the rear end of the spool chuck 11, and a fixing plate 14 is welded to the rear end of the penetration rod 13. Second compression springs 24 are distributed on both sides of the front end of the spool chuck 11, and the first A closing cover 15 is distributed at one end of the two compression springs 24 away from the spool chuck 11 , a clamping ring 16 is fitted at the connection between the closing cover 15 and the penetration rod 13 , and a penetration hole 18 is penetrated in the middle of the closing cover 15 , which clamps the The tightening ring 16 and the cover 15 are in close contact with each other, and the size of the penetration hole 18 in the clamping ring 16 cooperates with the penetration rod 13. When the thread take-up post 12 completely penetrates into the penetration rod 13, the user The closing cover 15 can be closed, the clamping ring 16 in the closing cover 15 and one end of the penetrating rod 13 are attached to each other, reducing the gap between the penetrating rod 13 and the clamping ring 16, and the closing cover 15 can penetrate One end of the rod 13 is attached to the spool chuck 11 on the other side, and the spool chuck 11 is locked and fixed;
[0031] There are embedded rods 17 distributed on both sides of the lower end of the cover 15. The embedded rods 17 are symmetrically distributed along the vertical center axis of the cover 15, and the cover 15 forms an embedded structure through the embedded rod 17 and the platform 7. The embedded rod 17 on the side is embedded in the fixing hole 8, and the supporting platform 7 fixes the closing cover 15 to prevent the closing cover 15 from being separated from the spool chuck 11 during the fixing, so as to ensure the stability of the entire structure;
[0032] A limit rod 19 is fixed on the inner wall of the rear end of the body 1, and fixed heads 20 are distributed on both sides of the outer wall of the limit rod 19. The space is a detachable structure, and the limit rods 19 are distributed along both sides of the spool chuck 11 to limit and fix the spool chuck 11 to further prevent the spool chuck 11 from shaking. When storing the coil, the user can remove the nut 21 on both sides of the limit rod 19 and take out the limit rod 19. At the same time, when the spool chuck 11 is loaded to accommodate the cable, the cross-sectional area of ​​the entire cable cannot exceed the size of the cover 15. diameter;
[0033] A nut 21 is attached to the inner side of the fixed head 20, a first compression spring 22 is attached to the top inner wall of the bearing platform 7, and a ball 23 is arranged on the top of the first compression spring 22, and the balls 23 are evenly distributed along the top of the bearing platform 7, And the balls 23 form an elastic structure through the first compression spring 22 and the platform 7. When the spool chuck 11 is pushed, the balls 23 can reduce the friction coefficient between the platform 7 and the spool chuck 11 and reduce the labor force. Labor intensity, and the elastic structure between the ball 23 and the first compression spring 22, when the spool chuck 11 is loaded to accommodate the cable, the ball 23 is contracted inward by the first compression spring 22, increasing the radius of the opening of the bearing platform 7 , to ensure that the support platform 7 can effectively accommodate the spool chuck 11 after the load is accommodated by the cable;
[0034] The third compression springs 25 are distributed on both sides of the fixed plate 14 , the second compression springs 24 and the third compression springs 25 are respectively distributed symmetrically along the centerline of the take-up column 12 , and the second compression springs 24 and the third compression springs 25 It forms an elastic structure with the spool chuck 11. The second compression spring 24 and the third compression spring 25 are distributed along the two sides of the spool chuck 11 respectively, which play a good elastic fixing effect and also have a certain shock absorption and buffering effect. The stability of the entire storage structure is ensured, and it is convenient for users to use.
[0035] The working principle of this embodiment: The storage device with an anti-oxidative structure is used for the production of the cable. When in use, the spool chuck 11 and the wire take-up post 12 are first circled into a suitable cable wire, and the spool chuck 11 is loaded with a load. When the cable is used, the cross-sectional area of ​​the entire cable cannot exceed the diameter of the cover 15;
[0036] At this time, when the user needs to put the spool chuck 11 into the collection device, the user can slide the sliders 10 on both sides of the spool chuck 11 along the inner wall of the slide rail 9, and the slide rails 9 at both ends are opposite to each other. The spool chuck 11 is limited and fixed, and at the same time, the thread take-up post 12 penetrates into the penetration rod 13, the inner wall of the thread take-up post 12 and the outer wall of the penetration rod 13 are attached to each other, and the penetration rod 13 carries out the thread take-up post 12. Longitudinal fixed limit to prevent the take-up post 12 from disengaging, and the outer wall of the wire take-up post 12 adopts a threaded design, which can improve the friction coefficient on the surface of the wire take-up post 12, which is convenient for subsequent collection of cables, and when the wire take-up post 12 is completely threaded Entering into the penetration rod 13, the user can close the cover 15, the clamping ring 16 in the closing cover 15 and one end of the penetration rod 13 are attached to each other, reducing the gap between the penetration rod 13 and the clamping ring 16. In the gap, the closing cover 15 penetrates one end of the penetration rod 13, and is attached to the other side of the spool chuck 11. At the same time, the embedded rods 17 on both sides of the closing cover 15 are inserted into the fixing holes 8, and the platform 7 is pressed against the closing cover 15. Fixing, to prevent the closing cover 15 from disengaging from the spool chuck 11 during fixing;
[0037] Finally, the user puts the cables to be stored into the collection device one by one, rotates the door body 4, the door body 4 rotates axially along the center of the hinge 3, and the door bodies 4 on both sides seal the body 1 to start the To a certain anti-corrosion function, and the user can move the body 1 to a suitable position through the roller 2.
[0038] Although the present invention has been described in detail with reference to the foregoing embodiments, for those skilled in the art, it is still possible to modify the technical solutions described in the foregoing embodiments, or to perform equivalent replacements for some of the technical features. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention shall be included within the protection scope of the present invention.

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Description & Claims & Application Information

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