CN107872918B - Magnet assembly equipment for superconducting cyclotron - Google Patents

Abstract

The invention discloses a magnet assembly device for a superconducting cyclotron, comprises a supporting part, a rotating block, a control part and an auxiliary mounting structure; the auxiliary mounting structure is fixedly connected with the supporting component, the left end of the supporting component is fixedly connected with a first mounting block, and a mounting groove is formed in the first mounting block; the right end of the supporting component is fixedly connected with a second mounting block, and a first mounting through hole is formed in the second mounting block; the invention can support the rotating block to a proper height through the iron yoke supporting part, and provides a reliable support structure for the heavy weight assembly components; according to the invention, the installation angle of the upper magnet is adjusted through the combined action of the rotating block and the positioning control equipment, so that the upper magnet is installed rapidly, and the assembly efficiency is improved.

Description

Magnet assembly equipment for superconducting cyclotron

Technical Field

The invention belongs to the field of magnet assembly, and relates to a superconducting cyclotron, in particular to magnet assembly equipment for the superconducting cyclotron.

Background

The superconducting cyclotron is an advanced and effective device for realizing particle acceleration, and in the assembly process, the upper magnetic pole is required to be assembled with the upper iron yoke upwards; the upper pole is oriented downward when the upper yoke is installed in the accelerator and accurate positioning of the poles is required when installed.

The current upper magnet assembly method in the market utilizes crane lifting installation or supports at the lower part of an upper yoke for installing the upper magnet, and has potential safety hazards or low installation efficiency, and the upper magnet cannot be flexibly installed. How to safely and effectively mount the upper magnet of the superconducting cyclotron, so that the upper magnet can be accurately positioned during mounting, and the mounting of the upper magnet of the superconducting cyclotron is difficult. A magnet assembly apparatus for a superconducting cyclotron is necessary in terms of convenience and accuracy in assembling magnets.

Disclosure of Invention

The invention aims to provide magnet assembly equipment for a superconducting cyclotron.

The aim of the invention can be achieved by the following technical scheme:

a magnet assembly apparatus for a superconducting cyclotron includes a support member, a rotating block, a control member, and an auxiliary mounting structure;

the auxiliary mounting structure is fixedly connected with the supporting component, the left end of the supporting component is fixedly connected with a first mounting block, and a mounting groove is formed in the first mounting block; the right end of the supporting component is fixedly connected with a second mounting block, and a first mounting through hole is formed in the second mounting block;

two limiting blocks are respectively arranged at the left end and the right end of the rotating block, the two limiting blocks form a first fixing groove, and the first fixing groove is in an inverted T shape; a first fixing block is arranged in a first fixing groove at the left end of the rotating block, a first connecting rod is fixedly connected to the front end of the first fixing block, and the first connecting rod is matched with the mounting groove; a second fixing block is arranged in the first fixing groove at the right end of the rotating block, a second connecting rod is fixedly connected to the front end of the second fixing block, and the second connecting rod is matched with the first mounting through hole;

the control part comprises a supporting platform which is connected to the supporting part through a plurality of third connecting rods, a cushion block is fixedly connected to the upper part of the supporting platform, a motor is installed above the cushion block, and an output rotating shaft of the motor is fixedly connected with the second connecting rods through connecting pieces.

Further, the rotary block top still is connected with the upper yoke through a plurality of spliced poles, it has a plurality of second installation through-holes still to go up the yoke, the spliced pole is mutually supported with the second installation through-hole, the spliced pole top still opens the screw thread, spliced pole top threaded connection has the nut, the nut below is equipped with the gasket.

Further, the supporting part comprises a square bracket, the left side and the right side of the square bracket are fixedly connected with supporting frames, and the supporting frames are fixedly connected with a third connecting rod.

Further, the auxiliary mounting structure is a mounting platform fixedly connected to the supporting component, the periphery of the mounting platform is provided with a fence, and the mounting platform is fixedly connected with a step for mounting the platform up and down.

Further, the connecting piece includes and cup joints at output pivot epaxial first fixed cover, still be equipped with the third fixed block in the output pivot, first fixed cover inside be equipped with third fixed block matched with second fixed slot, still be equipped with first solid fixed ring on the first fixed cover, first fixed cover front end still is equipped with the fixed cover of second.

Further, the second fixing sleeve is connected to the first fixing sleeve through a second fixing ring arranged at the front end of the second fixing sleeve, and the second fixing ring is connected with the first fixing ring through a bolt; a plurality of third fixing grooves are also formed in the second fixing sleeve; the front end of the second connecting rod is also provided with a plurality of fourth fixing blocks, the fourth fixing blocks are mutually matched with the third fixing grooves, and the second connecting rod is connected with the second fixing sleeve through the fourth fixing blocks and the third fixing grooves.

The invention has the beneficial effects that: the present invention is capable of supporting the rotating block to an appropriate height by the iron yoke supporting member and providing a reliable supporting structure for supporting the heavy weight assembly member.

According to the invention, the installation angle of the upper magnet is adjusted through the combined action of the rotating block and the positioning control equipment, so that the upper magnet is installed rapidly, and the assembly efficiency is improved.

The invention has good innovation and strong practicability, can effectively solve the problems of unreliable magnet assembly safety, low positioning accuracy, inconvenient subsequent assembly and the like of the traditional superconducting cyclotron, and has extremely important promotion effect on the accuracy, effectiveness and high efficiency of the assembly of the superconducting cyclotron.

Drawings

The present invention is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

FIG. 1 is a block diagram of the present invention;

fig. 2 is an exploded view of a part of the structure of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantageous techniques of the present invention more clear, the present invention will be further described in detail with reference to the accompanying drawings and detailed description. It should be understood that the detailed description is presented herein for purposes of illustration only and is not intended to limit the invention.

As shown in the figure, a magnet assembly apparatus for a superconducting cyclotron comprises a support member 1, a rotating block 2, a control member 3 and an auxiliary mounting structure 4;

the auxiliary mounting structure 4 is fixedly connected with the supporting component 1, a first mounting block 5 is fixedly connected to the left end of the supporting component 1, and a mounting groove 501 is formed in the first mounting block 5; the right end of the supporting component 1 is fixedly connected with a second mounting block 6, and a first mounting through hole 601 is formed in the second mounting block 6;

two limiting blocks 201 are respectively arranged at the left end and the right end of the rotating block 2, the two limiting blocks 201 form a first fixing groove 202, and the first fixing groove 202 is in an inverted T shape; a first fixing block 7 is arranged in a first fixing groove 202 at the left end of the rotating block 2, a first connecting rod 701 is fixedly connected to the front end of the first fixing block 7, and the first connecting rod 701 is matched with the mounting groove 501; a second fixing block 8 is arranged in the first fixing groove 202 at the right end of the rotating block 2, a second connecting rod 801 is fixedly connected to the front end of the second fixing block 8, and the second connecting rod 801 is matched with the first mounting through hole 601;

the control part 3 comprises a supporting platform 10 which is connected to the supporting part 1 through a plurality of third connecting rods 9, a cushion block 11 is fixedly connected above the supporting platform 10, a motor 12 is installed above the cushion block 11, and an output rotating shaft 1201 of the motor 12 is fixedly connected with the second connecting rods 801 through connecting pieces 13.

Further, an upper iron yoke 15 is further connected above the rotating block 2 through a plurality of connecting columns 14, a plurality of second installation through holes 1501 are further formed in the upper iron yoke 15, the connecting columns 14 are matched with the second installation through holes 1501, threads are further formed in the top ends of the connecting columns 14, nuts 16 are connected to the top ends of the connecting columns 14 in a threaded mode, and gaskets 1601 are arranged below the nuts 16.

Further, the supporting component 1 includes a square bracket 101, the left and right sides of the square bracket 101 are fixedly connected with a supporting frame 102, and the supporting frame 102 is fixedly connected with a third connecting rod 9.

Further, the auxiliary mounting structure 4 is a mounting platform 401 fixedly connected to the supporting component 1, the periphery of the mounting platform 401 is provided with a fence 402, and the mounting platform 401 is fixedly connected with a step 403 for mounting the platform 401 up and down.

Further, the connecting piece 13 includes a first fixing sleeve 1301 sleeved on the output rotary shaft 1201, a third fixing block 1202 is further provided on the output rotary shaft 1201, a second fixing groove 1302 matched with the third fixing block 1202 is provided inside the first fixing sleeve 1301, a first fixing ring 1303 is further provided on the first fixing sleeve 1301, and a second fixing sleeve 17 is further provided at the front end of the first fixing sleeve 1301.

Further, the second fixing sleeve 17 is connected to the first fixing sleeve 1301 through a second fixing ring 1701 arranged at the front end of the second fixing sleeve 17, and the second fixing ring 1701 is connected with the first fixing ring 1303 through bolts; a plurality of third fixing grooves 1702 are further formed in the second fixing sleeve 17; the front end of the second connecting rod 801 is further provided with a plurality of fourth fixing blocks 802, the fourth fixing blocks 802 are matched with the third fixing grooves 1702, and the second connecting rod 801 is connected with the second fixing sleeve 17 through the fourth fixing blocks 802 and the third fixing grooves 1702.

A magnet assembly equipment for superconducting cyclotron is last, when working, control part is adjusted the rotary block to horizontal position and is fixed, and rotary block installation face turns to upwards, and the assembly personnel is on with last yoke hoist and mount the rotary block through supplementary mounting structure, then the assembly personnel is through supplementary mounting structure installation upper pole of last yoke installation face. When the accelerator assembly is carried out, the control part adjusts the rotating block to rotate 180 degrees, and the upper magnet is assembled on the accelerator by hoisting, so that the upper magnetic pole can be assembled conveniently, safely and reliably;

the present invention is capable of supporting the rotating block to an appropriate height by the iron yoke supporting member and providing a reliable supporting structure for supporting the heavy weight assembly member.

According to the invention, the installation angle of the upper magnet is adjusted through the combined action of the rotating block and the positioning control equipment, so that the upper magnet is installed rapidly, and the assembly efficiency is improved.

The invention has good innovation and strong practicability, can effectively solve the problems of unreliable magnet assembly safety, low positioning accuracy, inconvenient subsequent assembly and the like of the traditional superconducting cyclotron, and has extremely important promotion effect on the accuracy, effectiveness and high efficiency of the assembly of the superconducting cyclotron.

The foregoing is merely illustrative of the structures of this invention and various modifications, additions and substitutions for those skilled in the art can be made to the described embodiments without departing from the scope of the invention or from the scope of the invention as defined in the accompanying claims.

Claims (2)

1. A magnet assembly device for a superconducting cyclotron, characterized by comprising a support component (1), a rotating block (2), a control component (3) and an auxiliary mounting structure (4);

the auxiliary mounting structure (4) is fixedly connected with the supporting component (1), a first mounting block (5) is fixedly connected to the left end of the supporting component (1), and a mounting groove (501) is formed in the first mounting block (5); the right end of the supporting component (1) is fixedly connected with a second installation block (6), and a first installation through hole (601) is formed in the second installation block (6);

two limiting blocks (201) are respectively arranged at the left end and the right end of the rotating block (2), the two limiting blocks (201) form a first fixing groove (202), and the first fixing groove (202) is in an inverted T shape; a first fixed block (7) is arranged in a first fixed groove (202) at the left end of the rotating block (2), a first connecting rod (701) is fixedly connected to the front end of the first fixed block (7), and the first connecting rod (701) is matched with the mounting groove (501); a second fixed block (8) is arranged in a first fixed groove (202) at the right end of the rotating block (2), a second connecting rod (801) is fixedly connected to the front end of the second fixed block (8), and the second connecting rod (801) is matched with the first mounting through hole (601);

the control component (3) comprises a supporting platform (10) connected to the supporting component (1) through a plurality of third connecting rods (9), a cushion block (11) is fixedly connected above the supporting platform (10), a motor (12) is arranged above the cushion block (11), and an output rotating shaft (1201) of the motor (12) is fixedly connected with the second connecting rods (801) through connecting pieces (13);

an upper iron yoke (15) is further connected above the rotating block (2) through a plurality of connecting columns (14), a plurality of second installation through holes (1501) are further formed in the upper iron yoke (15), the connecting columns (14) are mutually matched with the second installation through holes (1501), threads are further formed in the top ends of the connecting columns (14), nuts (16) are connected with the top ends of the connecting columns (14) through threads, and gaskets (1601) are arranged below the nuts (16);

the supporting component (1) comprises a square bracket (101), the left side and the right side of the square bracket (101) are fixedly connected with supporting frames (102), and the supporting frames (102) are fixedly connected with a third connecting rod (9);

the connecting piece (13) comprises a first fixing sleeve (1301) sleeved on an output rotating shaft (1201), a third fixing block (1202) is further arranged on the output rotating shaft (1201), a second fixing groove (1302) matched with the third fixing block (1202) is formed in the first fixing sleeve (1301), a first fixing ring (1303) is further arranged on the first fixing sleeve (1301), and a second fixing sleeve (17) is further arranged at the front end of the first fixing sleeve (1301);

the second fixing sleeve (17) is connected to the first fixing sleeve (1301) through a second fixing ring (1701) arranged at the front end of the second fixing sleeve (17), and the second fixing ring (1701) is connected with the first fixing ring (1303) through bolts; a plurality of third fixing grooves (1702) are also formed in the second fixing sleeve (17); the front end of the second connecting rod (801) is further provided with a plurality of fourth fixing blocks (802), the fourth fixing blocks (802) are matched with the third fixing grooves (1702), and the second connecting rod (801) is connected with the second fixing sleeve (17) through the fourth fixing blocks (802) and the third fixing grooves (1702).

2. The magnet assembly device for the superconducting cyclotron according to claim 1, wherein the auxiliary mounting structure (4) is a mounting platform (401) fixedly connected to the supporting component (1), a fence (402) is arranged around the mounting platform (401), and the mounting platform (401) is fixedly connected with a step (403) for mounting the platform (401) up and down.