CN214054991U - Clamping mechanism for iron core assembly - Google Patents

Abstract

The utility model relates to the field of transformer iron cores, in particular to a clamping mechanism for iron core assembly, which comprises a supporting mechanism, a bottom fixing mechanism and a middle fixing mechanism, wherein the top end of the supporting mechanism is provided with a dismounting device, the dismounting device comprises a jacking mechanism, a clamping mechanism and a positioning mechanism, the clamping mechanism for iron core assembly of the utility model can fix the iron core well through the bottom fixing mechanism and the middle fixing mechanism, the position of the iron core can not be deviated, and the error is reduced, moreover, the lifting plate can be moved after the cylinder is started by starting a cylinder when a coil is mounted, finally, a clamping jaw can be put down, then, two connecting plates can be moved outwards or inwards after the first double-shaft cylinder is started, and the clamping jaw can be moved along with the cylinder and can clamp the upper end of the iron core, then the clamping jaw drives the upper end of the iron core to rise under the action of the cylinder, and the coil can be installed in the iron core.

Description

Clamping mechanism for iron core assembly

Technical Field

The utility model relates to a transformer core field, concretely relates to clamping machine constructs for iron core assembly.

Background

The iron core is the main magnetic circuit part in the transformer, usually made up of the laminated hot-rolled or cold-rolled silicon steel sheets with high silicon content and coated with insulating paint on the surface, the iron core and the coil wound on it compose the complete electromagnetic induction system, the power of the power transformer depends on the material and cross-sectional area of the iron core.

The existing clamping mechanism for iron core assembly cannot guarantee the stability of an iron core when a coil is installed, the position of the iron core may deviate, errors are caused, and troubles are caused due to the fact that the iron core at the top cannot be conveniently taken down when the coil is installed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a clamping machine constructs for iron core assembly.

To achieve the purpose, the utility model adopts the following technical proposal:

provides a clamping mechanism for iron core assembly, which comprises a supporting mechanism, a bottom fixing mechanism and a middle fixing mechanism, wherein the supporting mechanism is fixedly arranged on the ground and used for supporting the iron core assembly, an iron core is arranged on the supporting mechanism, the top end of the iron core is provided with an upper end of the iron core, the bottom fixing mechanism is fixedly arranged in the supporting mechanism and used for fixing the bottom of the iron core, the middle fixing mechanism is arranged on the supporting mechanism and used for fixing the middle part of the iron core, the top end of the supporting mechanism is provided with a dismounting device used for dismounting the iron core, the dismounting device comprises a jacking mechanism, a clamping mechanism and a positioning mechanism, the jacking mechanism is fixedly arranged at the top end of the supporting mechanism and used for lifting the upper end of the iron core, the clamping mechanism can be slidably arranged at the bottom end of the jacking mechanism and used for clamping the upper end of the iron core, and the positioning mechanism is arranged at the moving position of the clamping mechanism.

Further, climbing mechanism includes cylinder, push pedal and lifter plate, and the cylinder is fixed to be set up on supporting mechanism, and the push pedal sets up on the output of cylinder, and the lifter plate is fixed to be set up in the bottom of push pedal, has seted up two spouts on the lifter plate.

Further, fixture includes first double-shaft cylinder, two connecting plates and four clamping jaws, and four clamping jaws all slidable set up in the spout, two clamping jaws of every connecting plate equal fixed connection, and first double-shaft cylinder is fixed to be set up on the lifter plate, and the both ends of first double-shaft cylinder respectively with a connecting plate fixed connection.

Furthermore, the positioning mechanism comprises a controller and four proximity sensors, a hole is formed in each clamping jaw, each proximity sensor is arranged in each hole, and the controller is fixedly arranged on one clamping jaw.

Further, supporting mechanism includes bottom plate, shell, two H type slip tables and two slip tables, and the bottom plate is fixed to be set up subaerial, and the shell is fixed to be set up on the bottom plate, and two H type slip tables are all fixed to be set up on the bottom plate, and every H type slip table all is located the inside of shell, and every slip table is all fixed to be set up on two H type slip tables.

Further, bottom fixed establishment includes two first fixed plates, two first threaded rods, two first gag lever posts, two second fixed plates, two second threaded rods and two second gag lever posts, two equal slidable settings of first fixed plate are on H type slip table, every first gag lever post all sets up on an H type slip table, and every first gag lever post all inserts in two first fixed plates, the both ends of two first fixed plates are inserted to two first threaded rod subdivisions, still be provided with four nuts on every first threaded rod, the equal slidable setting of two second fixed plates is on the slip table, every second gag lever post all sets up on a slip table, and every second gag lever post all inserts in two second fixed plates, the both ends of two second fixed plates are inserted to two second threaded rod subdivisions, still be provided with four nuts on every second threaded rod.

Further, middle part fixed establishment includes the second double axle cylinder, two tracks, two third fixed plates and two third gag lever posts, and two tracks set up respectively in the inside both sides of shell, and every third gag lever post all sets up in a track, and the equal slidable of two third fixed plates sets up inside the track, and the second double axle cylinder is fixed to be set up on the bottom plate, and the both ends of second double axle cylinder respectively with a third fixed plate fixed connection.

The utility model has the advantages that: the utility model discloses a clamping mechanism for iron core assembly, can be fixed the iron core well through bottom fixed establishment and middle part fixed establishment, can not lead to the iron core position to take place the skew, reduce the error, and the utility model discloses a clamping mechanism for iron core assembly is through starting the cylinder when the installation coil, the cylinder starts the back and will makes the push pedal remove, will make the lifter plate remove after the push pedal removes, can put down the clamping jaw at last, later through starting first pair of axle cylinder, will make two connecting plates outwards or inside removal after the first pair of axle cylinder starts, the clamping jaw will remove thereupon this moment and can clip the iron core upper end, later make the clamping jaw drive the iron core upper end through the effect of cylinder once more and rise, just can pack the coil into in the iron core this moment.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments of the present invention will be briefly described below.

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic perspective view of the mounting and dismounting device;

FIG. 4 is a schematic perspective view of a jacking mechanism;

FIG. 5 is a schematic perspective view of the clamping mechanism;

FIG. 6 is a perspective view of the positioning mechanism;

FIG. 7 is a perspective view of the support mechanism;

FIG. 8 is a perspective view of the bottom mounting mechanism;

FIG. 9 is a perspective view of the middle fixing mechanism;

in the figure:

1. a dismounting device; 1a, a jacking mechanism; 1a1, air cylinder; 1a2, push plate; 1a3, lifter plate; 1a4, a chute; 1b, a clamping mechanism; 1b1, a first double-shaft cylinder; 1b2, connecting plate; 1b3, jaws; 1c, a positioning mechanism; 1c1, proximity sensor; 1c2, a controller;

2. a support mechanism; 2a, a bottom plate; 2b, a housing; 2c, an H-shaped sliding table; 2d, a sliding table;

3. a bottom fixing mechanism; 3a, a first fixing plate; 3b, a first threaded rod; 3c, a nut; 3d, a first limiting rod; 3e, a second fixing plate; 3f, a second threaded rod; 3g, a second limiting rod;

4. a middle fixing mechanism; 4a, a second double-shaft cylinder; 4b, a rail; 4c, a third fixing plate; 4d, a third limiting rod; 5. An iron core; 5a, the upper end of the iron core.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; for a better understanding of the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product.

Referring to fig. 1 to 9, a clamping mechanism for iron core assembly includes a supporting mechanism 2, a bottom fixing mechanism 3 and a middle fixing mechanism 4, the supporting mechanism 2 is fixedly disposed on the ground for supporting iron core assembly, an iron core 5 is disposed on the supporting mechanism 2, an iron core upper end 5a is disposed at the top end of the iron core 5, the bottom fixing mechanism 3 is fixedly disposed inside the supporting mechanism 2 for fixing the bottom of the iron core 5, the middle fixing mechanism 4 is disposed on the supporting mechanism 2 for fixing the middle of the iron core 5, a dismounting device 1 is disposed at the top end of the supporting mechanism 2 for dismounting the iron core 5, the dismounting device 1 includes a jacking mechanism 1a, a clamping mechanism 1b and a positioning mechanism 1c, the jacking mechanism 1a is fixedly disposed at the top end of the supporting mechanism 2 for lifting the iron core upper end 5a, the clamping mechanism 1b is slidably disposed at the bottom end of the jacking mechanism 1a for clamping the iron core upper end 5a, positioning mechanism 1c sets up the shift position that is used for detecting fixture 1b on fixture 1b, at first place iron core 5 on supporting mechanism 2, later can fix iron core 5 bottom through the effect of bottom fixed establishment 3, later fix the middle part of iron core 5 through the effect of middle part fixed establishment 4, start climbing mechanism 1a at last and put down fixture 1b, later clip iron core upper end 5a through fixture 1 b's effect, later make fixture 1b drive iron core upper end 5a through climbing mechanism 1 a's effect once more and rise, just can pack the coil into in iron core 5 this moment.

The jacking mechanism 1a comprises an air cylinder 1a1, a push plate 1a2 and a lifting plate 1a3, wherein the air cylinder 1a1 is fixedly arranged on the supporting mechanism 2, the push plate 1a2 is arranged at the output end of the air cylinder 1a1, the lifting plate 1a3 is fixedly arranged at the bottom end of the push plate 1a2, two sliding grooves 1a4 are formed in the lifting plate 1a3, the air cylinder 1a1 is started finally, the push plate 1a2 can move after the air cylinder 1a1 is started, the lifting plate 1a3 can move after the push plate 1a2 moves, and the clamping mechanism 1b can be lowered finally.

The clamping mechanism 1b comprises a first double-shaft cylinder 1b1, two connecting plates 1b2 and four clamping jaws 1b3, wherein the four clamping jaws 1b3 are all slidably arranged in the sliding groove 1a4, each connecting plate 1b2 is fixedly connected with two clamping jaws 1b3, the first double-shaft cylinder 1b1 is fixedly arranged on the lifting plate 1a3, two ends of the first double-shaft cylinder 1b1 are fixedly connected with one connecting plate 1b2, the first double-shaft cylinder 1b1 is started to enable the two connecting plates 1b2 to move outwards or inwards, and the clamping jaws 1b3 move along with the first double-shaft cylinder 1b1 and clamp the upper end 5a of the iron core.

The positioning mechanism 1c comprises a controller 1c2 and four proximity sensors 1c1, a hole is formed in the clamping jaw 1b3, each proximity sensor 1c1 is arranged in one hole, the controller 1c2 is fixedly arranged on one clamping jaw 1b3, and the moving position of the clamping jaw 1b3 can be clearly detected through the action of the proximity sensor 1c 1.

The supporting mechanism 2 comprises a bottom plate 2a, a shell 2b, two H-shaped sliding tables 2c and two sliding tables 2d, wherein the bottom plate 2a is fixedly arranged on the ground, the shell 2b is fixedly arranged on the bottom plate 2a, the two H-shaped sliding tables 2c are fixedly arranged on the bottom plate 2a, each H-shaped sliding table 2c is positioned inside the shell 2b, and each sliding table 2d is fixedly arranged on the two H-shaped sliding tables 2 c.

The bottom fixing mechanism 3 comprises two first fixing plates 3a, two first threaded rods 3b, two first limiting rods 3d, two second fixing plates 3e, two second threaded rods 3f and two second limiting rods 3g, wherein the two first fixing plates 3a are arranged on an H-shaped sliding table 2c in a sliding manner, each first limiting rod 3d is arranged on one H-shaped sliding table 2c, each first limiting rod 3d is inserted into the two first fixing plates 3a, the two first threaded rods 3b are respectively inserted into two ends of the two first fixing plates 3a, each first threaded rod 3b is also provided with four nuts 3c, the two second fixing plates 3e are arranged on the sliding table 2d in a sliding manner, each second limiting rod 3g is arranged on one sliding table 2d, and each second limiting rod 3g is inserted into the two second fixing plates 3e, two second threaded rods 3f are inserted into both ends of two second fixing plates 3e in sections, and each second threaded rod 3f is further provided with four nuts 3c, and the iron core 5 is first placed on the bottom plate 2a, and then the first fixing plate 3a and the second fixing plate 3e are moved on the first limiting rod 3d and the second limiting rod 3g until the iron core 5 can be clamped and stopped, and then the iron core 5 is fixed by tightening the nuts 3 c.

The middle fixing mechanism 4 includes a second dual-axis cylinder 4a, two rails 4b, two third fixing plates 4c and two third limiting rods 4d, the two rails 4b are respectively disposed on two sides of the inside of the housing 2b, each third limiting rod 4d is disposed in one rail 4b, the two third fixing plates 4c are slidably disposed inside the rails 4b, the second dual-axis cylinder 4a is fixedly disposed on the bottom plate 2a, and two ends of the second dual-axis cylinder 4a are respectively fixedly connected with one third fixing plate 4c, and then by activating the second dual-axis cylinder 4a, the second dual-axis cylinder 4a can slide the third fixing plate 4c in the rails 4b after being activated, and stop until the third fixing plate 4c can fix the middle of the iron core 5.

The working principle is as follows: firstly, the iron core 5 is placed on the bottom plate 2a, then the first fixing plate 3a and the second fixing plate 3e are moved on the first limiting rod 3d and the second limiting rod 3g until the iron core 5 can be clamped and stopped, then the iron core 5 is fixed by screwing the nut 3c, then by starting the second double-shaft cylinder 4a, the second double-shaft cylinder 4a starts to enable the third fixing plate 4c to slide in the track 4b until the third fixing plate 4c can fix the middle part of the iron core 5 and stops, finally, the cylinder 1a1 is started, the cylinder 1a1 starts to enable the push plate 1a2 to move, the push plate 1a2 moves to enable the lifting plate 1a3 to move, finally, the clamping jaw 1b3 can be put down, and then by starting the first double-shaft cylinder 1b1, the first double-shaft cylinder 1b1 starts to enable the two connecting plates 1b2 to move outwards or inwards, the clamping jaw 1b3 moves along with the iron core upper end 5a and can clamp the iron core upper end 5a, and then the clamping jaw 1b3 drives the iron core upper end 5a to ascend through the action of the air cylinder 1a1, so that the coil can be installed in the iron core 5.

Claims (7)

1. The utility model provides a clamping machine constructs for iron core assembly, a serial communication port, including supporting mechanism (2), bottom fixed establishment (3) and middle part fixed establishment (4), supporting mechanism (2) are fixed to be set up and are used for supporting the iron core assembly subaerial, be provided with one iron core (5) on supporting mechanism (2), the top of iron core (5) is provided with one iron core upper end (5a), bottom fixed establishment (3) are fixed to be set up and are used for the bottom of fixed iron core (5) in the inside of supporting mechanism (2), middle part fixed establishment (4) set up the middle part that is used for fixed iron core (5) on supporting mechanism (2), the top of supporting mechanism (2) is provided with the dismouting that a dismouting device (1) is used for iron core (5), dismouting device (1) includes climbing mechanism (1a), fixture (1b) and positioning mechanism (1c), climbing mechanism (1a) is fixed to be set up and is used for iron core upper end (5a) on the top of supporting mechanism (2) The lifting and clamping mechanism (1b) can be slidably arranged at the bottom end of the jacking mechanism (1a) and used for clamping the upper end (5a) of the iron core, and the positioning mechanism (1c) is arranged on the clamping mechanism (1b) and used for detecting the moving position of the clamping mechanism (1 b).

2. The clamping mechanism for assembling the iron core as recited in claim 1, wherein the jacking mechanism (1a) comprises an air cylinder (1a1), a push plate (1a2) and a lifting plate (1a3), the air cylinder (1a1) is fixedly arranged on the supporting mechanism (2), the push plate (1a2) is arranged at the output end of the air cylinder (1a1), the lifting plate (1a3) is fixedly arranged at the bottom end of the push plate (1a2), and two sliding grooves (1a4) are formed in the lifting plate (1a 3).

3. The clamping mechanism for assembling the iron core as recited in claim 2, wherein the clamping mechanism (1b) comprises a first double-shaft cylinder (1b1), two connecting plates (1b2) and four clamping jaws (1b3), the four clamping jaws (1b3) are slidably arranged in the sliding groove (1a4), each connecting plate (1b2) is fixedly connected with two clamping jaws (1b3), the first double-shaft cylinder (1b1) is fixedly arranged on the lifting plate (1a3), and two ends of the first double-shaft cylinder (1b1) are respectively and fixedly connected with one connecting plate (1b 2).

4. The clamping mechanism for assembling the iron core according to claim 3, wherein the positioning mechanism (1c) comprises a controller (1c2) and four proximity sensors (1c1), the clamping jaw (1b3) is provided with a hole, each proximity sensor (1c1) is arranged in one hole, and the controller (1c2) is fixedly arranged on one clamping jaw (1b 3).

5. The clamping mechanism for assembling the iron core according to claim 4, wherein the supporting mechanism (2) comprises a bottom plate (2a), a shell (2b), two H-shaped sliding tables (2c) and two sliding tables (2d), the bottom plate (2a) is fixedly arranged on the ground, the shell (2b) is fixedly arranged on the bottom plate (2a), the two H-shaped sliding tables (2c) are fixedly arranged on the bottom plate (2a), each H-shaped sliding table (2c) is positioned in the shell (2b), and each sliding table (2d) is fixedly arranged on the two H-shaped sliding tables (2 c).

6. The clamping mechanism for assembling the iron core according to claim 5, wherein the bottom fixing mechanism (3) comprises two first fixing plates (3a), two first threaded rods (3b), two first limiting rods (3d), two second fixing plates (3e), two second threaded rods (3f) and two second limiting rods (3g), the two first fixing plates (3a) are slidably arranged on the H-shaped sliding table (2c), each first limiting rod (3d) is arranged on one H-shaped sliding table (2c), each first limiting rod (3d) is inserted into the two first fixing plates (3a), the two first threaded rods (3b) are respectively inserted into two ends of the two first fixing plates (3a), each first threaded rod (3b) is further provided with four nuts (3c), and the two second fixing plates (3e) are slidably arranged on the sliding table (2d), every second gag lever post (3g) all sets up on a slip table (2d), and during every second gag lever post (3g) all inserted two second fixed plates (3e), the both ends of two second fixed plates (3e) are inserted to two second threaded rod (3f) subdivisions, still is provided with four nuts (3c) on every second threaded rod (3 f).

7. The clamping mechanism for assembling the iron core as recited in claim 6, wherein the middle fixing mechanism (4) comprises a second double-shaft cylinder (4a), two rails (4b), two third fixing plates (4c) and two third limiting rods (4d), the two rails (4b) are respectively arranged at two sides of the inside of the shell (2b), each third limiting rod (4d) is arranged in one rail (4b), the two third fixing plates (4c) are slidably arranged inside the rails (4b), the second double-shaft cylinder (4a) is fixedly arranged on the bottom plate (2a), and two ends of the second double-shaft cylinder (4a) are respectively fixedly connected with one third fixing plate (4 c).

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