CN2643454Y - Coiling apparatus for superconducting cable band - Google Patents

Abstract

The utility model relates to a superconductive cable winding device comprising a main axis winding mechanism, a longitudinal feeding mechanism, a superconductive cable discharging mechanism and an electric control part. The device can wind a plurality of superconductive cables which has been lined orderly and bond together to a cable core in certain angle and a full automatic control can be adopted to the winding, which not only avoids damages to the superconductive cable but also makes the superconductive cable be wound compactly and evenly. The device can significantly improve the efficiency of the winding of the superconductive cable.

Description

Hyperconductive cable band coiling device

Technical field

The utility model relates to a kind of device that is used to make hyperconductive cable, particularly a kind of hyperconductive cable band coiling device.

Background technology

The making of hyperconductive cable is to specify the high-temperature superconductor flat strip of radical, with certain angle and tension force, to be wound on the cable core coiling multilayer on request side by side equably.

The disclosed hyperconductive cable conductor of prior art winding method, generally be to adopt traditional cable stranded cable technology, at first the draw drum that is wound with single superconducting tape is installed on the strand cage, superconducting tape coiling radical corresponding to superconductor is installed the guide roller identical with the coiling radical before draw drum, its angular interval is that 360 degree are divided by the coiling radical, cable core passes from strand cage center, superconducting tape is drawn from draw drum and is guided into and be fixed on the cable core through guide roller and distributor plate, to carry out Tension Control to every lead, cable core is moving linearly under the effect of front and back hauling machine, strand cage band draw drum and is rotated together, and superconducting tape then is wound on the cable core.

There is tangible problem in existing cable stranded cable technology to the making of hyperconductive cable.Because superconducting tape is the ceramic oxide material that silver alloy wraps, the tension force ability to bear of single superconducting tape is little more a lot of than the copper strip and the steel band in same cross section, and Tension Control is difficult, the elasticity of wayward superconducting tape coiling.Superconducting tape is easily broken during single mode coiling, needs welding behind the broken belt, influences the performance of hyperconductive cable.Slit difficult control in the coilings simultaneously of many superconducting tapes between the general superconducting tape several mm wides of only having an appointment, band and band overlaps easily mutually, influences the quality of coiling.The used mechanism design of existing cable stranded cable technology is complicated, and is higher to specification requirement.

Summary of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art and defective, a kind of brand-new hyperconductive cable band coiling device is proposed, this device has been arranged bonding superconducting tape with many and has been wound on the cable core along certain angle, and can adopt Automatic Control, promptly avoid damaging superconducting tape and make closely and equably coiling of superconducting tape again, this device can improve the operating efficiency of hyperconductive cable band coiling greatly.

For reaching above-mentioned purpose, the utility model provides a kind of hyperconductive cable band coiling device, comprising:

1) main shaft moving mechanism, it further comprises, a pedestal, a left socle, a right support, a mandrel, mandrel drawing mechanism, bellows drawing mechanism and a main motor, wherein,

Right support is fixed on the right of pedestal;

Left socle be fixed on the left side of pedestal, but its position can vertically move along pedestal;

The mandrel drawing mechanism comprises the right-hand member of mandrel drawing mechanism and the left end of mandrel drawing mechanism, is installed in respectively on described right support and the left socle;

Mandrel is installed on the mandrel drawing mechanism, and the right-hand member of mandrel is fixed on the right-hand member of mandrel drawing mechanism, and the left end of mandrel is fixed on the left end of mandrel drawing mechanism, and stretching by the left end of mandrel drawing mechanism;

The bellows drawing mechanism, coaxial with the mandrel drawing mechanism, its left end is set in outside the mandrel left end, in order to the fixing left end of bellows, its right-hand member is set in outside the mandrel right-hand member, and with the right-hand member of mandrel drawing mechanism by being threaded, be used to the bellows that stretches;

Main motor is installed on the right support, is connected with the right-hand member of mandrel drawing mechanism, rotates in order to drive mandrel;

2) longitudinal feed mechanism further comprises,

Two guide rails are horizontally fixed on the basal plane;

One toothed rack is positioned at the centre of two guide rails, and is parallel with guide rail, also is fixed on the basal plane;

One base plate is erected on two guide rails, has several slide blocks and guide rail to be slidingly matched below it, so that move along guide rail;

One auxiliary-motor is vertically mounted on the base plate, and its lower shaft end is equipped with a Knucle-gear, and this Knucle-gear is meshed with described tooth bar;

3) at least one superconducting tape is put band mechanism, be arranged on the same described base plate with longitudinal feed mechanism, its each further comprise,

One small rack is fixed on the described base plate, and the circumference angle index is arranged on the upper surface of small rack;

One rolling disc is installed on the small rack, and with circumference angle index concentric;

One bearing pedestal is fixed on the described rolling disc, can rotate with the rolling disc circumference;

One puts tape spool, passes described bearing pedestal, and the one end is equipped with a take-off reel, is wound with superconducting tape on the take-off reel; Its other end is equipped with a magnetic powder brake;

4) automatically controlled part further comprises, a Programmable Logic Controller and two frequency converters be mainly used in the rotation of controlling main motor and auxiliary-motor, and longitudinal feed mechanism are spacing.

The right-hand member of described mandrel drawing mechanism further comprises main shaft and main bearing seat, and described main bearing seat is fixed on the right support, and main shaft passes main bearing seat, and its right-hand member is connected with main motor, and its left end is fixedlyed connected with the mandrel right-hand member.

The fixedly connected mode of the left end of described main shaft and mandrel is selected to be threaded and is connected with latch.

The left end of described mandrel drawing mechanism further comprises:

One L bracket is fixed on the left socle;

One bearing pedestal is positioned at the right side of L bracket, and the bearing pedestal left side has a bearing cap, the center of bearing cap that one screw that penetrates bearing cap is arranged;

One minor axis is fastened on the bearing pedestal center, and its right-hand member is fixedlyed connected with the mandrel left end;

One pulling bolt is horizontally positioned in the long-armed U-lag of L bracket by bolt head, and the threaded portion of pulling bolt is connected with the described screw that penetrates bearing cap, and it is mobile vertically with the minor axis on it to drive bearing pedestal by the swivel bolt head.

The fixedly connected mode of described minor axis right-hand member and mandrel left end is selected to be threaded and is connected with latch, but must be different with the mode that the left end of described main shaft is fixedlyed connected with the mandrel right-hand member.

The left end of described bellows drawing mechanism, further comprise two identical half-cylindrical jigs that cooperate up and down, the inner cylinder face of jig left end matches with described mandrel left end, on its inner cylinder face bulge loop is arranged, and matches with the groove of described mandrel left end; The inner cylinder face of jig right-hand member matches with the groove of described bellows left end; Upper and lower jig passes through bolt.

Can not have bulge loop on the inner cylinder face of described jig yet, and on the relevant position, be provided with upper and lower two pins, match with the groove of described mandrel left end.

The right-hand member of described bellows drawing mechanism further comprises:

One locknut has internal thread, with described main shaft by being threaded, the locknut left end has a stepped hole;

One active card frame, for having the cylindric of step, the center is a through hole, passes for described mandrel right-hand member, its right-hand member step matches with the stepped hole of described locknut left end, on the cylindrical outer wall on its left side concave ring groove is arranged;

Two identical half-cylindrical anchor clamps are fastened on up and down on the described active card frame relatively, described anchor clamps keep right the end inner cylinder face on bigger internal projecting ring is arranged, match with the concave ring groove on the described active card frame left side; Described anchor clamps keep left the end inner cylinder face on little bulge loop is arranged, match with the groove of described ripple tube head outer surface; Upper and lower two identical half-cylindrical anchor clamps pass through bolt.

Described anchor clamps keep left can not have little bulge loop on the inner cylinder face of end yet, and is provided with upper and lower two pins on the relevant position, matches with the groove of described ripple tube head outer surface.

Vertical guide groove is arranged on the described pedestal, and described left socle can move in the guide groove length range, and by being bolted on the pedestal, to adapt to different cable lengths.

Described superconducting tape is put on the small rack of being with in the mechanism and is fixed with two relative arc-shaped rails, cooperates with described turn disc.

The number that described superconducting tape is put band mechanism can be 1～6 according to the requirement of hyperconductive cable, is preferably 1～3.

Advantage of the present utility model is, use hyperconductive cable band coiling device coiling hyperconductive cable effect provided by the utility model fine, not only make superconducting tape smooth and discharge equably, closely be wound on the cable core equably, and it is less to the infringement of superconducting tape, can save a large amount of artificial and time, enhance productivity.

Description of drawings

Fig. 1 is the schematic perspective view of the utility model hyperconductive cable band coiling device embodiment;

Fig. 2 is the front elevational schematic of main shaft moving mechanism;

Fig. 3 is mandrel and bellows relative position schematic diagram;

Fig. 4-1 is put the schematic diagram of the left side view of band mechanism for longitudinal feed mechanism and superconducting tape;

Fig. 4-2 is the schematic diagram of the upward view of A direction longitudinal feed mechanism among Fig. 4-1;

Fig. 5 is put the local enlarged diagram of band mechanism for superconducting tape;

Fig. 6-1 is the local enlarged diagram of mandrel drawing mechanism right-hand member;

Fig. 6-2 is the local enlarged diagram of mandrel drawing mechanism left end;

Fig. 7-1 is the local enlarged diagram of bellows drawing mechanism left end;

Fig. 7-2 is the local enlarged diagram of bellows drawing mechanism right-hand member;

Fig. 8 is the control flow chart of automatically controlled part.

Embodiment

Describe embodiment of the present utility model in detail below in conjunction with drawings and Examples.

Shown in Fig. 1～7, the utility model provides the embodiment of a hyperconductive cable band coiling device, and at first with reference to figure 1, it comprises:

1) main shaft moving mechanism 1, as shown in Figure 2, it further comprises, a pedestal 11, a left socle 12, a right support 13, a mandrel 14, mandrel drawing mechanism 15, bellows drawing mechanism 16 and a main motor 17, wherein,

Described right support 13 is fixed on the right of pedestal 11;

Described left socle 12 be fixed on the left side of pedestal 11, but its position can vertically move along pedestal;

Described mandrel drawing mechanism 15 comprises the right-hand member 151 of mandrel drawing mechanism and the left end 152 of mandrel drawing mechanism, is installed in respectively on described right support 13 and the left socle 12;

Mandrel 14 is installed on the mandrel drawing mechanism 15, and the right-hand member of mandrel is fixed on the right-hand member 151 of mandrel drawing mechanism, and the left end of mandrel is fixed on the left end 152 of mandrel drawing mechanism, and passes through the left end 152 stretching mandrels 14 of mandrel drawing mechanism;

Bellows drawing mechanism 16, coaxial with mandrel drawing mechanism 15, its left end 161 is set in outside the left end of mandrel 14, in order to the fixing left end of bellows 18, its right-hand member 162 is set in outside the right-hand member of mandrel 14, and with the right-hand member 151 of mandrel drawing mechanism by being threaded, bellows 18 is used to stretch;

Main motor 17 is installed on the right support 13, is connected with the right-hand member 151 of mandrel drawing mechanism in order to drive mandrel 14 to rotate;

2) longitudinal feed mechanism 2, shown in Fig. 4-1 and Fig. 4-2, further comprise,

Two guide rails 21 are horizontally fixed on the basal plane 22;

One toothed rack 23 is positioned at the centre of two guide rails 21, and is parallel with guide rail 21, also is fixed on the basal plane 22;

One base plate 24 is erected on two guide rails 21, has below it several slide blocks 241 to be slidingly matched with guide rail 21, so that move along guide rail 21;

One auxiliary-motor 25 is vertically mounted on the base plate 24, and its lower shaft end is equipped with a Knucle-gear 26, and this Knucle-gear 26 is meshed with described tooth bar 23;

3) at least one superconducting tape is put band mechanism 3, be arranged on the same described base plate 24 with longitudinal feed mechanism 2, can there be 1～6, be preferably 1～3, in the present embodiment, for the ease of understanding, only introduce and have a superconducting tape and put band mechanism 3, shown in Fig. 4-1 left-half, it further comprises

One small rack 31 is fixed on the described base plate 24, and circumference angle index 311 is arranged on the upper surface of small rack 31;

One rolling disc 32 is installed on the small rack 31, and with circumference angle index 311 concentrics;

One bearing pedestal 33 is fixed on the described rolling disc 32, can rotate with rolling disc 32 circumference;

One puts tape spool 34, as shown in Figure 5, passes described bearing pedestal 33, and the one end is equipped with a take-off reel 35, is wound with superconducting tape on the take-off reel 35; Its other end is equipped with a magnetic powder brake 36;

4) automatically controlled part 4 as shown in Figure 8, further comprises, a Programmable Logic Controller 41, primary transducer 42, secondary frequency converter 43 be mainly used in the rotation of controlling main motor 17 and auxiliary-motor 25, and longitudinal feed mechanism 2 are spacing.

Shown in Fig. 6-1, the right-hand member 151 of described mandrel drawing mechanism further comprises main shaft 1511 and main bearing seat 1512, described main bearing seat 1512 is fixed on the right support 13, main shaft 1511 passes main bearing seat 1512, its right-hand member is connected with main motor 17, and its left end is fixedlyed connected with the right part of mandrel 14.

The mode that the left end of described main shaft 1511 is fixedlyed connected with mandrel 14 also can be that latch connects in the present embodiment for being threaded.

Shown in Fig. 6-2, the left end 152 of described mandrel drawing mechanism further comprises:

One L bracket 1521 is fixed on the left socle 12;

One bearing pedestal 1522 is positioned at the right side of L bracket 1521, and there is a bearing cap 1523 in bearing pedestal 1522 left sides, and there is a screw that penetrates bearing cap 1523 at the center of bearing cap 1523;

One minor axis 1524 is fastened on bearing pedestal 1522 centers, and its right-hand member is fixedlyed connected with the left end of mandrel 14;

One pulling bolt 1525, be horizontally positioned in the long-armed U-lag of L bracket 1521 by bolt head, the threaded portion of pulling bolt 1525 is connected with the described screw that penetrates bearing cap 1523, it is mobile vertically with the minor axis 1524 on it to drive bearing pedestal 1522 by the bolt head that rotates pulling bolt 1525, thereby mandrel 14 tensions are stretching.

The fixedly connected mode of the right-hand member of described minor axis 1524 and the left end of mandrel 14 is in the present embodiment for latch is connected, because the mode that the other end of main shaft 1511 is fixedlyed connected with mandrel 14 is in the present embodiment for being threaded.Can certainly select for use and be threaded, but must be different with the mode that the left end of described main shaft 1511 is fixedlyed connected with the right-hand member of mandrel 14, when being threaded, the fixedly connected mode of the left end of described main shaft 1511 and the right-hand member of mandrel 14 just must be that latch is connected.

Shown in Fig. 7-1, the left end 161 of described bellows drawing mechanism 16, further comprise two identical half-cylindrical jigs 1611 that cooperate up and down, the inner cylinder face of jig left end matches with described mandrel 14 left ends, bulge loop 16111 is arranged on its inner cylinder face, match with the groove 141 of described mandrel left end; Bulge loop 16112 on the inner cylinder face of jig right-hand member matches with the groove 181 of described bellows 18 left ends; Upper and lower jig passes through bolt.

As another kind of execution mode, there are not bulge loop 16111 and bulge loop 16112 on the inner cylinder face of described half-cylindrical jig 1611, and on the relevant position, be provided with upper and lower two pins, not shown in the figures, match with the groove 141 of described mandrel 14 left ends and the groove 181 of bellows 18 left ends, play the effect of location equally.

Shown in Fig. 7-2, the right-hand member 162 of described bellows drawing mechanism 16 further comprises:

One locknut 1621 has internal thread, is connected with the external screw thread of described main shaft 1511 by main shaft 1511 left sides, and locknut 1621 left ends have a stepped hole;

One active card frame 1622, for having the cylindric of step, the center is a through hole, supplies the right-hand member of described mandrel 14 to pass, its right-hand member step matches with the stepped hole of described locknut left end, and concave ring groove 16221 is arranged on the cylindrical outer wall on its left side;

Two identical half-cylindrical anchor clamps 1623 are fastened on up and down on the described active card frame 1622 relatively, described anchor clamps 1623 keep right the end inner cylinder face on bigger internal projecting ring 16231 is arranged, match with the concave ring groove 16221 on described active card frame 1622 left sides; Described anchor clamps 1623 keep left the end inner cylinder face on little bulge loop 16232 is arranged, match with the groove 182 of described ripple tube head 18 right-hand member outer surfaces; Upper and lower two identical half-cylindrical anchor clamps 1623 pass through bolt.

As another kind of execution mode, described anchor clamps 1623 keep left end inner cylinder face on do not have little bulge loop 16232, and on the relevant position, be provided with upper and lower two pins, not shown in the figures, match with the groove 182 of described bellows 18 head right-hand member outer surfaces, play the effect of location equally.

On the described pedestal 11 vertical guide groove is arranged, described left socle 12 can move in the guide groove length range, and by being bolted on the pedestal 11, to adapt to different cable lengths.

Described superconducting tape is put on the small rack of being with in the mechanism 3 31 and is fixed with two relative arc-shaped rails, is rotatably assorted with described rolling disc 33.

Hyperconductive cable band coiling device provided by the utility model, in use, under the control of automatically controlled part Programmable Logic Controller, by primary transducer and secondary frequency converter, the rotation of doing around axle by the mandrel 14 and the bellows 18 of main motor 17 driving main shaft moving mechanisms 1, mandrel drawing mechanism 15, mandrel 14 is stretching, and bellows drawing mechanism 16 is stretching with bellows 18; Drive longitudinal feed mechanisms 2 and the superconducting tape that is arranged on the same base plate is put band mechanism 3 by auxiliary-motor 25, move axially along mandrel; Superconducting tape is put band mechanism 3 according to the requirement of hyperconductive cable to tension force and winding angle, and prefabricated superconducting tape is wound on the bellows 18.Thereby make satisfactory hyperconductive cable.

The above only is preferred embodiment of the present utility model, can not limit its practical range with this, and protection range of the present utility model should be as the criterion with the scope of claims.

Claims (12)

1. a hyperconductive cable band coiling device is characterized in that, comprising:

1) main shaft moving mechanism further comprises,

One pedestal, a left socle, a right support, a mandrel, mandrel drawing mechanism, bellows drawing mechanism and a main motor, wherein,

Right support is fixed on the right of pedestal;

Left socle be fixed on the left side of pedestal, but its position can vertically move along pedestal;

The mandrel drawing mechanism comprises the right-hand member of mandrel drawing mechanism and the left end of mandrel drawing mechanism, is installed in respectively on described right support and the left socle;

Mandrel is installed on the mandrel drawing mechanism, and the right-hand member of mandrel is fixed on the right-hand member of mandrel drawing mechanism, and the left end of mandrel is fixed on the left end of mandrel drawing mechanism, and stretching by the left end of mandrel drawing mechanism;

The bellows drawing mechanism, coaxial with the mandrel drawing mechanism, its left end is set in outside the mandrel left end, in order to the fixing left end of bellows, its right-hand member is set in outside the mandrel right-hand member, and with the right-hand member of mandrel drawing mechanism by being threaded, be used to the bellows that stretches;

Main motor is installed on the right support, is connected with the right-hand member of mandrel drawing mechanism, rotates in order to drive mandrel;

2) longitudinal feed mechanism further comprises,

Two guide rails are horizontally fixed on the basal plane;

One toothed rack is positioned at the centre of two guide rails, and is parallel with guide rail, also is fixed on the basal plane;

One base plate is erected on two guide rails, has several slide blocks and guide rail to be slidingly matched below it, so that move along guide rail;

One auxiliary-motor is vertically mounted on the base plate, and its lower shaft end is equipped with a Knucle-gear, and this Knucle-gear is meshed with described tooth bar;

3) at least one superconducting tape is put band mechanism, be arranged on the same described base plate with longitudinal feed mechanism, its each further comprise,

One small rack is fixed on the described base plate, and the circumference angle index is arranged on the upper surface of small rack;

One rolling disc is installed on the small rack, and with circumference angle index concentric;

One bearing pedestal is fixed on the described rolling disc, can rotate with the rolling disc circumference;

One puts tape spool, passes described bearing pedestal, and the one end is equipped with a take-off reel, is wound with superconducting tape on the take-off reel; Its other end is equipped with a magnetic powder brake;

4) automatically controlled part further comprises, a Programmable Logic Controller and two frequency converters be mainly used in the rotation of controlling main motor and auxiliary-motor, and longitudinal feed mechanism are spacing.

2. hyperconductive cable band coiling device according to claim 1, it is characterized in that, the right-hand member of described mandrel drawing mechanism further comprises main shaft and main bearing seat, described main bearing seat is fixed on the right support, main shaft passes main bearing seat, its right-hand member is connected with main motor, and its left end is fixedlyed connected with the mandrel right-hand member.

3. hyperconductive cable band coiling device according to claim 2 is characterized in that, the fixedly connected mode of the left end of described main shaft and mandrel is selected to be threaded and is connected with latch.

4. hyperconductive cable band coiling device according to claim 1 is characterized in that the left end of described mandrel drawing mechanism further comprises:

One L bracket is fixed on the left socle;

One bearing pedestal is positioned at the right side of L bracket, and the bearing pedestal left side has a bearing cap, the center of bearing cap that one screw that penetrates bearing cap is arranged;

One minor axis is fastened on the bearing pedestal center, and its right-hand member is fixedlyed connected with the mandrel left end;

One pulling bolt is horizontally positioned in the long-armed U-lag of L bracket by bolt head, and the threaded portion of pulling bolt is connected with the described screw that penetrates bearing cap, and it is mobile vertically with the minor axis on it to drive bearing pedestal by the swivel bolt head.

5. hyperconductive cable band coiling device according to claim 4, it is characterized in that, the fixedly connected mode of described minor axis right-hand member and mandrel left end is selected to be threaded and is connected with latch, but must be different with the mode that the left end of described main shaft is fixedlyed connected with the mandrel right-hand member.

6. hyperconductive cable band coiling device according to claim 1, it is characterized in that, the left end of described bellows drawing mechanism, further comprise two identical half-cylindrical jigs that cooperate up and down, the inner cylinder face of jig left end matches with described mandrel left end, on its inner cylinder face bulge loop is arranged, match with the groove of described mandrel left end; The inner cylinder face of jig right-hand member matches with the groove of described bellows left end; Upper and lower jig passes through bolt.

7. according to the described hyperconductive cable band coiling device of claim 6 jig, it is characterized in that not having bulge loop on the inner cylinder face of described jig, and on the relevant position, be provided with upper and lower two pins, match with the groove of described mandrel left end.

8. hyperconductive cable band coiling device according to claim 1 is characterized in that the right-hand member of described bellows drawing mechanism further comprises:

One locknut has internal thread, with described main shaft by being threaded, the locknut left end has a stepped hole;

One active card frame, for having the cylindric of step, the center is a through hole, passes for described mandrel right-hand member, its right-hand member step matches with the stepped hole of described locknut left end, on the cylindrical outer wall on its left side concave ring groove is arranged;

Two identical half-cylindrical anchor clamps are fastened on up and down on the described active card frame relatively, described anchor clamps keep right the end inner cylinder face on bigger internal projecting ring is arranged, match with the concave ring groove on the described active card frame left side; Described anchor clamps keep left the end inner cylinder face on little bulge loop is arranged, match with the groove of described ripple tube head outer surface; Upper and lower two identical half-cylindrical anchor clamps pass through bolt.

9. hyperconductive cable band coiling device according to claim 8, it is characterized in that, described anchor clamps keep left does not have little bulge loop on the inner cylinder face of end, and is provided with upper and lower two pins on the relevant position, matches with the groove of described ripple tube head outer surface.

10. hyperconductive cable band coiling device according to claim 1 is characterized in that, vertical guide groove is arranged on the described pedestal, and described left socle can move in the guide groove length range, and by being bolted on the pedestal, to adapt to different cable lengths.

11. hyperconductive cable band coiling device according to claim 1 is characterized in that, described superconducting tape is put on the small rack of being with in the mechanism and is fixed with two relative arc-shaped rails, cooperates with described turn disc.

12. hyperconductive cable band coiling device according to claim 1 is characterized in that, the number that described superconducting tape is put band mechanism is 1～6.

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