CN114999735B - Environment-friendly intelligent electric wire and cable for building and preparation method thereof - Google Patents

Abstract

The invention discloses an environment-friendly intelligent electric wire and cable for buildings and a preparation method thereof, and relates to a cable, which comprises the following steps: s1, mutually twisting a plurality of conducting wires into a bundle, and wrapping an insulating layer and a shielding layer on the outer side to obtain a transmission cable, a monitoring cable and a power transmission cable; s2, sequentially placing the transmission cable, the monitoring cable and the power transmission cable on a protective structure; and S3, coating a rubber material on the outer part of the protective structure. According to the cable, the rubber material is coated on the outside of the formed cable body, so that the rubber material specially prepared in the application can be fully heat-resistant, and the influence on signal transmission of the cable caused by direct breakage of the cable due to short circuit or external fire outburst in the using process is avoided; simultaneously this application can guarantee the cable in the winding after production through adopting unique cable tip fixed knot to construct, can carry out light fixed with the tip of cable.

Description

Environment-friendly intelligent electric wire and cable for building and preparation method thereof

Technical Field

The invention relates to a cable, in particular to an environment-friendly intelligent electric wire and cable for buildings and a preparation method thereof.

Background

The cable includes power cable, control cable, compensation cable, shielding cable, high-temperature cable, computer cable, signal cable, coaxial cable, fire-resistant cable, marine cable, mining cable, aluminum alloy cable and the like. They are composed of single or multi-strand wires and insulating layers, and are used for connecting circuits, electric appliances and the like.

When the cable is in use, when short circuit occurs or fire disaster occurs outside, the cable can be directly broken, and the transmission quality of the cable is affected.

Disclosure of Invention

The invention aims to provide an environment-friendly intelligent electric wire and cable for buildings and a preparation method thereof, so as to solve the problems in the background technology.

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

a preparation method of an environment-friendly intelligent wire and cable for buildings comprises the following steps:

s1, mutually twisting a plurality of conducting wires into a bundle, and wrapping an insulating layer and a shielding layer on the outer side to obtain a transmission cable, a monitoring cable and a power transmission cable;

s2, sequentially placing the transmission cable, the monitoring cable and the power transmission cable on a protective structure;

s3, coating a rubber material on the outer part of the protective structure;

the step S3 includes the steps of:

s31, preparing 20-40 parts of silicon rubber, 5-10 parts of high-wear-resistance carbon black, 10-15 parts of butylbenzene, 7-8 parts of titanium dioxide, 2-3 parts of stearic acid, 1-2 parts of an accelerator, 2-4 parts of magnesium oxide and 2-4 parts of paraffin;

step S32, smashing the silicon rubber obtained in the step S31, and pouring the smashed silicon rubber into a heating kettle, wherein the temperature in the heating kettle is kept at 400-500 ℃, and the heating time is 50-80 min;

s33, pouring the material in the step S31 into the liquid silicone rubber obtained in the step S32, and fully mixing, wherein the mixing temperature is kept at 400 ℃, and the mixing time is 60min;

s34, coating the mixed material in the step S33 on the outer side of the protective structure;

protective structure includes spring steel, dashpot, buffer spring and connecting rod, the outside cladding of transmission cable has the spring steel, the outside circumference array of spring steel is provided with the connecting rod, it is provided with the guard ring to slide on the connecting rod, the dashpot has been seted up on the guard ring, be provided with transmission of electricity cable and control cable between guard ring and the spring steel, transmission of electricity cable and the outside packing of control cable have cushion rubber, the guard ring outside is provided with buffer spring, just buffer spring fixes and fixes at the inside buffer spring of fixed shell

An environment-friendly intelligent building wire cable comprises a cable body and a protection structure, wherein the protection structure is respectively arranged outside a transmission cable, a monitoring cable and a transmission cable and is used for protecting the transmission cable, the monitoring cable and the transmission cable; the cable end fixing structure is arranged at the end part of the electric wire and the electric cable and is used for fixing the end part of the electric wire and the electric cable on the winding roller during the production of the electric wire and the electric cable; and the roller fixing structure is arranged on the base and used for driving the winding roller to rotate.

As a further scheme of the invention: the roller fixing structure comprises a rotating part which is arranged on the base and used for realizing the rotation of the winding roller; the fixing component is arranged at the output end of the rotating component and used for fixing the winding roller; and the clamping part is arranged on the winding roller and the fixing part and used for avoiding misoperation of the winding roller.

As a still further scheme of the invention: the cable end fixing structure comprises an end seat and an internal auxiliary cable, the cable end connecting structure matched with the cable end fixing structure is arranged on the winding roller and comprises a sliding groove, a sliding spring, a supporting vertical rod, an arc protrusion, a fixing groove, a sliding block and a fixing rod, the fixing groove is formed in the winding roller, the end seat is fixed to the bottom of the fixing shell, the fixing groove is T-shaped, the sliding groove is formed in the bottom of the fixing groove, the fixing rod is fixed inside the sliding groove, the sliding block is arranged on the fixing rod in a sliding mode, the supporting vertical rod is fixed to the side edge of the supporting vertical rod, the arc protrusion is fixed to the side edge of the supporting vertical rod, the sliding spring is fixed to the side edge of the supporting vertical rod, and the other end of the sliding spring is fixed to the inside of the fixing groove.

As a still further scheme of the invention: the rotating part comprises a motor support frame, a winding motor, a winding support rod, a tip rotating shaft and a moving rod, the moving rod is fixed at the output end of the fixing part, the end rotating shaft is arranged at the side edge of the moving rod in a rotating mode, the motor support frame is fixed on the base, the winding motor is fixed on the motor support frame, the winding support rod is connected through the winding motor in a driving mode, and the winding support rod is fixed at the side edge of the tip rotating shaft.

As a still further scheme of the invention: the fixed part includes the moving motor, removes the lead screw and removes fixed cover, the base bottom is fixed with the moving motor, the moving motor drive is connected and is removed the lead screw, it is provided with the fixed cover of removal to remove the screw on the lead screw, just remove fixed cover with base sliding connection, it is fixed with the carriage release lever to remove fixed sheatheeing in.

As a still further scheme of the invention: the joint part includes inside telescopic link, constant head tank and locating piece, the circumference array is provided with inside telescopic link on the rolling bracing piece, inside telescopic link end fixing has the locating piece, the constant head tank has been seted up on the winding roll, constant head tank and locating piece joint.

Compared with the prior art, the invention has the beneficial effects that: according to the cable, the rubber material is coated on the outside of the molded cable body, so that the rubber material specially prepared in the cable can be sufficiently heat-resistant, and the influence on signal transmission of the cable due to direct breakage of the cable caused by short circuit or external fire burst in the using process is avoided; simultaneously this application can guarantee the cable in the winding after production through adopting unique cable tip fixed knot to construct, can carry out light fixed with the tip of cable.

Drawings

Fig. 1 is a schematic diagram of a method for manufacturing an environment-friendly intelligent electric wire and cable for buildings.

Fig. 2 is a schematic view of an environment-friendly intelligent electric wire and cable for construction and a protection structure in the preparation method thereof.

Fig. 3 is a schematic view of an environment-friendly intelligent electric wire and cable for construction and a cable end fixing structure in the manufacturing method thereof.

FIG. 4 is a schematic view of a structure of a roller fixing structure of the environment-friendly intelligent electric wire and cable for construction and the manufacturing method thereof.

Fig. 5 is a schematic structural view of an environment-friendly intelligent electric wire and cable for construction and a clamping part in the manufacturing method thereof.

Description of the reference numerals: 1. an end seat; 2. an internal auxiliary cable; 3. a connecting rod; 4. a buffer spring; 5. a power transmission cable; 6. a buffer tank; 7. monitoring the cable; 8. spring steel; 9. a transmission cable; 10. a sliding groove; 11. a slide spring; 12. supporting the vertical rod; 13. an arc-shaped bulge; 14. fixing grooves; 15. a slider; 16. fixing the rod; 17. a winding roller; 18. a motor support frame; 19. a winding motor; 20. winding the supporting rod; 21. an inner telescoping rod; 22. positioning a groove; 23. positioning blocks; 24. an end rotating shaft; 25. a travel bar; 26. moving the screw rod; 27. a moving motor; 28. a base.

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 obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1 to 5, in an embodiment of the present invention, a method for manufacturing an environment-friendly intelligent electric wire and cable for a building includes the following steps: firstly, S1, mutually twisting a plurality of conducting wires into a bundle, wrapping an insulating layer and a shielding layer on the outer side to obtain a transmission cable 9, a monitoring cable 7 and a transmission cable 5, wherein the cables can be preliminarily protected in the process; the method comprises the following steps of S2, sequentially placing a transmission cable 9, a monitoring cable 7 and a transmission cable 5 on a protective structure to realize the installation and protection of each cable; finally, step S3 is included, and the exterior of the protective structure is coated with a rubber material. In this embodiment, the cable is first initially protected, subsequently further protected by a protective structure, and finally protected by a rubber material, wherein the rubber material is a heat-resistant rubber in this application, wherein step S3 in this application comprises the following steps in order to prepare the heat-resistant rubber required in step S3: s31, preparing 20-40 parts of silicon rubber, 5-10 parts of high-wear-resistance carbon black, 10-15 parts of butylbenzene, 7-8 parts of titanium dioxide, 2-3 parts of stearic acid, 1-2 parts of an accelerator, 2-4 parts of magnesium oxide and 2-4 parts of paraffin; s32, smashing the silicon rubber in the step S31, and pouring the smashed silicon rubber into a heating kettle, wherein the temperature in the heating kettle is kept at 400-500 ℃, and the heating time is 50-80 min; s33, pouring the material in the step S31 into the liquid silicone rubber obtained in the step S32, and fully mixing, wherein the mixing temperature is kept at 400 ℃, and the mixing time is 60min; and S34, coating the mixed material in the step S33 on the outer side of the protective structure.

Referring to fig. 1 to 5, in the embodiment of the present invention, an environment-friendly intelligent electric wire for a building includes an electric wire body, a protective structure, a wire end fixing structure and a roller fixing structure, and in order to ensure the firmness of the electric wire, the protective structure is disposed, and the protective structure is disposed outside a transmission cable 9, a monitoring cable 7 and a transmission cable 5 respectively, and is used for protecting the transmission cable 9, the monitoring cable 7 and the transmission cable 5; in order to enable the cable to be easily wound in the production process, a cable end fixing structure is arranged at the end of the cable of each production line, wherein the cable end fixing structure is arranged at the end of the electric wire cable and used for fixing the end of the electric wire cable on the winding roller 17 during the production of the electric wire cable; in order to wind the cable, a roller fixing structure is provided, which is arranged on the base 28 and is used for driving the winding roller 17 to rotate. In the embodiment, the transmission cable 9, the monitoring cable 7 and the transmission cable 5 are firstly protected by the protection structure, then the winding roller 17 is fixed by the roller fixing structure, then the end of the cable is fixed on the winding roller 17 by the cable end fixing structure, and the winding of the cable is realized when the winding roller 17 rotates.

As a further embodiment of the present application, please refer to fig. 1 to 5, wherein in order to fix the winding roller 17, a roller fixing structure is provided, which includes a rotating component, a fixing structure and a clamping structure, wherein the rotating structure is disposed on the base 28 for rotating the winding roller 17; in order to fix the winding roller 17, a fixing part is arranged at the output end of the rotating part and used for fixing the winding roller 17; finally, in order to realize the clamping of the winding roller 17, the winding roller 17 is prevented from rotating along with power, so that a clamping component is arranged, wherein the clamping component is arranged on the winding roller and a fixing component and used for avoiding the misoperation of the winding roller 17. In this embodiment, at first utilize fixed knot structure to carry out preliminary fixed to winding roller 17, utilize the joint part to carry out further fixed to winding roller 17 afterwards, utilize revolution mechanic to drive winding roller 17's rotation at last to the realization is to the rolling of cable.

As a further embodiment of the present application, please refer to fig. 1 to 5, in order to implement the primary protection of the internal cable body, the protection structure includes a spring steel 8, a buffer slot 6, a buffer spring 4 and a connecting rod 3, first, the external cladding of the transmission cable 9 is covered by the spring steel 8, the external circumferential array of the spring steel 8 is provided with the connecting rod 3, a protection ring is slidably provided on the connecting rod 3, the buffer slot 6 is provided on the protection ring, it can be realized that the protection ring can move on the connecting rod 3 within a certain small range, thereby when receiving a certain impact, the buffer protection can be performed, the transmission cable 5 and the monitoring cable 7 are provided between the protection ring and the spring steel 8, the transmission cable 5 and the monitoring cable 7 are externally filled with buffer rubber, wherein the buffer rubber also has a sliding gap at a position close to the connecting rod 3, the buffer spring 4 is provided outside the protection ring, and the buffer spring 4 is fixed inside the fixed housing, and the buffer effect during the impact is implemented by the buffer spring 4.

As a further embodiment of the present application, please refer to fig. 1 to 5, in order to fix the end of the cable during the production, a cable end fixing structure is disposed at the end of each production line, wherein the cable end fixing structure includes an end seat 1 and an internal auxiliary cable 2, a cable end connecting structure adapted to the cable end fixing structure is disposed on the winding roller 17, the cable end connecting structure includes a sliding groove 10, a sliding spring 11, a supporting vertical rod 12, an arc-shaped protrusion 13, a fixing groove 14, a sliding block 15 and a fixing rod 16, the fixing groove 14 is disposed on the winding roller 17, the end seat 1 is fixed at the bottom of the fixing housing, the end seat 1 and the fixing groove 14 are T-shaped, so that the end seat 1 can be placed inside the fixing groove 14, the end seat 1 is clamped under a certain structure, and the cable is fixed, wherein, a small group of internal auxiliary cables 2 can be arranged on the end seat 1, wherein the internal auxiliary cables 2 are led out of the internal transmission cable 9, which is convenient for intercepting the internal auxiliary cables 2 and realizes the sampling observation of the transmission cable 9, the bottom of the fixed groove 14 is provided with a sliding groove 10, the inside of the sliding groove 10 is fixed with a fixed rod 16, the fixed rod 16 is provided with a sliding block 15 in a sliding way, the sliding block 15 is fixed with a supporting vertical rod 12, the side of the supporting vertical rod 12 is fixed with an arc-shaped bulge 13, the side of the supporting vertical rod 12 is fixed with a sliding spring 11, and the other end of the sliding spring 11 is fixed inside the fixed groove 14, namely, when in use, the end seat 1 extrudes the arc-shaped bulge 13, so that the arc-shaped bulge 13 moves transversely and oppositely under the action of the supporting vertical rod 12, thereby extruding the sliding spring 11, so that the sliding block 15 slides on the fixed rod 16 until the end seat 1 is clamped below the arc-shaped bulge 13, under the action of the sliding spring 11, the vertical supporting rods 12 are moved towards each other, so that the end seat 1 is fixedly clamped.

As a further embodiment of the present application, please refer to fig. 1 to 5, in order to realize the cable winding function, in the present application, the rotating component includes a motor support frame 18, a winding motor 19, a winding support rod 20, an end rotating shaft 24 and a moving rod 25, first, the moving rod 25 is fixed at the output end of the fixing component, the fixing component drives the moving rod 25 to move so as to realize the fixed winding of the winding roller 17, then, the end rotating shaft 24 is rotatably arranged at the side of the moving rod 25, the motor support frame 18 is fixed on the base 28, the winding motor 19 is fixed on the motor support frame 18, the winding motor 19 is drivingly connected to the winding support rod 20, and the winding support rod 20 is fixed at the side of the end rotating shaft 24. That is, in the present embodiment, the winding motor 19 is used to supply the winding power, so that the winding can be performed when the winding roller 17 is fixed by the fixing member.

As a further embodiment of the present application, please refer to fig. 1 to 5, in order to realize the initial fixing of the winding roller 17, the fixing component includes a moving motor 27, a moving screw rod 26 and a moving fixing sleeve, that is, at first, the moving motor 27 is fixed at the bottom of the base 28, the moving motor 27 is connected to the moving screw rod 26 in a driving manner, the moving fixing sleeve is disposed on the moving screw rod 26 by a thread, and the moving fixing sleeve is connected to the base 28 in a sliding manner, and a moving rod 25 is fixed on the moving fixing sleeve, wherein the moving motor 27 acts to drive the moving screw rod 26 to rotate, and at the same time, the moving fixing sleeve can move transversely under the action of the base 28, so as to drive the moving rod 25 to move transversely, thereby clamping and fixing the winding roller 17 by the winding support rod 20.

As a further embodiment of the present application, please refer to fig. 1 to 5, in order to avoid the deviation movement that may occur when winding the winding roller 17, the clamping component includes an inner telescopic rod 21, a positioning groove 22 and a positioning block 23, the inner telescopic rod 21 is arranged on the winding support rod 20 in a circumferential array, the positioning block 23 is fixed at the end of the inner telescopic rod 21, the positioning groove 22 is opened on the winding roller 17, the positioning groove 22 is clamped with the positioning block 23, when in use, the positioning block 23 is clamped into the positioning groove 22 by the extension of the inner telescopic rod 21, so that the clamping fixation of the winding support rod 20 and the winding roller 17 is realized.

The working principle of the invention is as follows: in the application, at first carry out preliminary protection to the cable, utilize protective structure to carry out further protection afterwards, utilize rubber materials to carry out final protection finally, after finishing, place winding roller 17 on rolling bracing piece 20, utilize the action of mobile motor 27 to drive removal lead screw 26 and rotate, make the fixed cover of removal can lateral shifting under the effect of base 28 simultaneously, make drive carriage 25 lateral shifting, thereby carry out the centre gripping with rolling bracing piece 20 to winding roller 17 and fix, the extension of inside telescopic link 21 simultaneously, make locating piece 23 joint enter into the constant head tank 22 inside, thereby realize that the joint of rolling bracing piece 20 and winding roller 17 is fixed, utilize end seat 1 extrusion arc arch 13 afterwards, make arc arch 13 transversely move in opposite directions under the effect of support montant 12, thereby extrude sliding spring 11, make sliding block 15 slide on dead lever 16, until end seat 1 card is in arc arch 13 below, under the effect of sliding spring 11, will support montant 12 and move in opposite directions, realize the fixed centre gripping of end seat 1, realize fixing the tip of rolling, utilize the action of cable 19 afterwards, make the effect of guide part to the cable realize the cable under the effect of rolling part.

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 (7)

1. The preparation method of the environment-friendly intelligent wire and cable for the building is characterized by comprising the following steps of:

s1, mutually twisting a plurality of wires into a bundle, and wrapping an insulating layer and a shielding layer on the outer side to obtain a transmission cable (9), a monitoring cable (7) and a power transmission cable (5);

s2, sequentially placing the transmission cable (9), the monitoring cable (7) and the power transmission cable (5) on a protective structure;

s3, coating a rubber material on the outer part of the protective structure;

the S3 comprises the following steps:

s31, preparing 20-40 parts of silicon rubber, 5-10 parts of high-wear-resistance carbon black, 10-15 parts of butylbenzene, 7-8 parts of titanium dioxide, 2-3 parts of stearic acid, 1-2 parts of an accelerator, 2-4 parts of magnesium oxide and 2-4 parts of paraffin;

s32, smashing the silicon rubber in the step S31, and pouring the smashed silicon rubber into a heating kettle, wherein the temperature in the heating kettle is kept at 400-500 ℃, and the heating time is 50-80 min;

s33, pouring the material in the step S31 into the liquid silicone rubber obtained in the step S32, and fully mixing, wherein the mixing temperature is kept at 400 ℃, and the mixing time is 60min;

s34, coating the mixed material in the step S33 on the outer side of the protective structure;

protective structure includes spring steel (8), dashpot (6), buffer spring (4) and connecting rod (3), the outside cladding of transmission cable (9) has spring steel (8), the outside circumference array of spring steel (8) is provided with connecting rod (3), it is provided with the guard ring to slide on connecting rod (3), buffer pot (6) have been seted up on the guard ring, be provided with transmission of electricity cable (5) and control cable (7) between guard ring and spring steel (8), transmission of electricity cable (5) and control cable (7) outside packing have buffer rubber, the guard ring outside is provided with buffer spring (4), just buffer spring (4) are fixed inside the set casing.

2. The method for preparing the environment-friendly intelligent electric wire and cable for buildings according to claim 1 comprises a cable body and is characterized by further comprising

The protection structures are respectively arranged outside the transmission cable (9), the monitoring cable (7) and the transmission cable (5) and used for protecting the transmission cable (9), the monitoring cable (7) and the transmission cable (5);

the cable end fixing structure is arranged at the end part of the electric wire and the electric cable and is used for fixing the end part of the electric wire and the electric cable on the winding roller (17) during the production of the electric wire and the electric cable;

the roller fixing structure is arranged on the base (28) and used for driving the winding roller (17) to rotate.

3. The environment-friendly intelligent electric wire and cable for buildings according to claim 2, wherein the roller fixing structure comprises a rotating part arranged on the base (28) for rotating the winding roller (17);

the fixing component is arranged at the output end of the rotating component and is used for fixing the winding roller (17);

and the clamping component is arranged on the winding roller and the fixing component and used for avoiding misoperation of the winding roller (17).

4. The environment-friendly intelligent electric wire cable for buildings according to claim 3, wherein the cable end fixing structure comprises an end seat (1) and an internal auxiliary cable (2), the winding roller (17) is provided with a cable end connecting structure matched with the cable end fixing structure, the cable end connecting structure comprises a sliding groove (10), a sliding spring (11), a supporting vertical rod (12), an arc-shaped protrusion (13), a fixing groove (14), a sliding block (15) and a fixing rod (16), the winding roller (17) is provided with the fixing groove (14), the bottom of the fixing shell is fixed with the end seat (1), the end seat (1) and the fixing groove (14) are T-shaped, the bottom of the fixing groove (14) is provided with the sliding groove (10), the fixing rod (16) is fixed inside the sliding groove (10), the fixing rod (16) is slidably provided with the sliding block (15), the sliding block (15) is fixed with the supporting vertical rod (12), the side of the supporting vertical rod (12) is fixed with the arc-shaped protrusion (13), the side of the supporting vertical rod (12) is fixed with the sliding spring (11) and the other end of the sliding spring (11) is fixed inside the fixing groove (14).

5. The environment-friendly intelligent electric wire and cable for buildings according to claim 4, wherein the rotating part comprises a motor support frame (18), a winding motor (19), a winding support rod (20), an end rotating shaft (24) and a moving rod (25), the moving rod (25) is fixed at the output end of the fixed part, the end rotating shaft (24) is rotatably arranged at the side edge of the moving rod (25), the motor support frame (18) is fixed on the base (28), the winding motor (19) is fixed on the motor support frame (18), the winding support rod (20) is connected with the winding motor (19) in a driving manner, and the winding support rod (20) is fixed at the side edge of the end rotating shaft (24).

6. The environment-friendly intelligent electric wire and cable for buildings according to claim 5, wherein the fixed part comprises a moving motor (27), a moving screw rod (26) and a moving fixed sleeve, the moving motor (27) is fixed at the bottom of the base (28), the moving motor (27) is in driving connection with the moving screw rod (26), the moving fixed sleeve is arranged on the moving screw rod (26) in a threaded manner, the moving fixed sleeve is in sliding connection with the base (28), and a moving rod (25) is fixed on the moving fixed sleeve.

7. The environment-friendly intelligent electric wire and cable for buildings according to claim 6, wherein the clamping component comprises an inner telescopic rod (21), a positioning groove (22) and a positioning block (23), the inner telescopic rods (21) are circumferentially arranged on the winding support rod (20), the positioning block (23) is fixed at the end of each inner telescopic rod (21), the positioning groove (22) is formed in the winding roller (17), and the positioning groove (22) is clamped with the positioning block (23).

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