CN109019297B - Rotary target material forming suspension cage and assembling method thereof - Google Patents

Abstract

The invention relates to the field of rotary target production equipment, in particular to a rotary target forming suspension cage and an assembly method thereof, wherein the forming suspension cage comprises a bottom supporting frame, a placing frame is arranged on the bottom supporting frame, and an annular frame groove for placing a rotary target is arranged on the placing frame; and a side connecting frame is arranged on the bottom supporting frame and is connected with a connecting assembly used for pulling the suspension cage to move. The invention discloses production equipment for producing a rotary target, which is simple in structure, and the transfer of a rotary target production mold is conveniently realized through the cooperation of a crane through the arrangement of a connecting assembly.

Description

Rotary target material forming suspension cage and assembling method thereof

Technical Field

The invention relates to the field of rotary target production equipment, in particular to a rotary target forming suspension cage and an assembling method thereof.

Background

The production of the rotary target material needs the arrangement of a suspension cage, the traditional suspension cage has a simple structure, the opening of the suspension cage is arranged on the side surface, the rotary target mold is heavy, the rotary target mold is inconvenient to put into the suspension cage, and a plurality of people need to slowly move the mold; meanwhile, only one mold can be placed at a time, if 2 rotating target molds are placed at the same time, the molds are easy to collide and are not easy to fix, and the breakage rate is increased; a new cage construction is now needed.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides a novel suspension cage structure suitable for the production of a rotary target material.

In order to achieve the purpose, the invention adopts the technical scheme that:

a forming suspension cage for a rotary target comprises a bottom supporting frame, wherein a placing frame is arranged on the bottom supporting frame, and an annular frame groove for placing the rotary target is formed in the placing frame; and a side connecting frame is arranged on the bottom supporting frame and is connected with a connecting assembly used for pulling the suspension cage to move.

The bottom supporting frame is at least provided with two placing frames, and the placing frames are uniformly and symmetrically distributed on the bottom supporting frame.

The placing frame comprises a plurality of annular supports, the annular supports are arranged in parallel, and the annular supports are longitudinally distributed and arranged along the direction perpendicular to the bottom supporting frame; the annular brackets are connected through transverse connecting frames.

Each annular bracket is provided with a clamping groove, the transverse connecting frame comprises a transverse connecting frame body, and barb clamping blocks are arranged on the transverse connecting frame body; the barb clamping block corresponds to the clamping groove.

The clamping groove is positioned at the lower end of the annular bracket, and the opening of the clamping groove is arranged towards the bottom supporting frame; and the inner side surface of the transverse connecting frame is attached to the outer side surface of the annular bracket.

The connecting assembly comprises a connecting annular handle arranged on the side connecting frame, and a connecting belt penetrates through the connecting annular handle; coupling assembling includes four connection annular handles, four connect annular handle evenly distributed on side connection frame to be connected through the connecting band between two adjacent connection annular handles.

The bottom supporting frame is provided with a plurality of transverse connecting supports for increasing the strength of the suspension cage, and one ends of the transverse connecting supports are connected with the side connecting frame.

The transverse connecting support is connected with a reinforced inclined rod, one end of the reinforced inclined rod is connected with the transverse connecting support, and the other end of the reinforced inclined rod is connected with the side connecting frame.

The bottom support frame comprises an annular connecting steel pipe, a plurality of longitudinal rectangular steel pipes are arranged in the annular connecting steel pipe, the longitudinal rectangular steel pipes are distributed in parallel, and the end part of each longitudinal rectangular steel pipe is connected with the annular connecting steel pipe.

The lower end face of the annular connecting steel pipe and the lower end face of the longitudinal rectangular steel pipe are located on the same plane, and the height of the longitudinal rectangular steel pipe is the same as that of the longitudinal rectangular steel pipe.

The invention has the advantages that:

the invention discloses production equipment for producing a rotary target, which is simple in structure, and the transfer of a rotary target production mold is conveniently realized through the cooperation of a crane through the arrangement of a connecting assembly.

Drawings

The following is a brief description of the contents of the various figures of the specification:

fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a top view of the present invention.

Fig. 3 is an exploded view of the middle transversal attachment frame of the present invention.

Fig. 4 is a cross-sectional view of the middle ring-shaped connecting steel pipe of the present invention.

Fig. 5 is a schematic structural view of the middle longitudinal rectangular steel pipe of the present invention.

Fig. 6 is a top view of the present invention after optimization.

Detailed Description

The following description of the preferred embodiments of the present invention will be made in further detail with reference to the accompanying drawings.

A rotary target material forming suspension cage comprises a bottom supporting frame 1, wherein a placing frame 3 is arranged on the bottom supporting frame 1, and an annular frame groove 35 for placing a rotary target material is arranged on the placing frame 3; the bottom supporting frame 1 is provided with a side connecting frame 2, and the side connecting frame 2 is connected with a connecting assembly for pulling the suspension cage to move; the bottom supporting frame 1 plays a supporting role, the side connecting frame 2 plays a protecting role and also plays a supporting role, the bottom supporting frame 1 is provided with the placing frame 3, the purpose of placing the frame 3 is to place a rotary target production mold, and further the purpose of the invention is realized, the placing frame 3 with preferable function is provided with an annular frame groove 35, the annular frame groove 35 is used for placing the rotary target mold, and the annular frame groove 35 is a groove formed independently and is not a groove formed by post processing, because the placing frame 3 comprises a plurality of annular supports 31, the annular supports 31 are arranged in parallel, and the annular supports 31 are longitudinally distributed and arranged along the direction vertical to the bottom supporting frame 1; the annular brackets 31 are connected through a transverse connecting frame; because the annular supports 31 are flanged longitudinally, and a plurality of arc-shaped supports jointly form a groove body structure along the direction of respective central shafts, and then the annular frame groove 35 is formed, in such a way, because the annular supports 31 are arranged at intervals, the integral mass of the placing frame 3 is reduced compared with that of a solid placing frame 3, the integral mass is reduced, the weight of the whole suspension cage is reduced, meanwhile, the water in the pressure cylinder conveniently flows into the annular frame groove 35, and the forming of the rotating target material is realized through the impact of the water in the pressure cylinder on the rotating target material; meanwhile, the weight is reduced, the hoisting is convenient, and meanwhile, as optimization, the inner side surface of the annular support 31 is a smooth plane, so that the interference of the motion of the inner wall of the annular support 31 when the rotary target die rotates can be reduced after the suspension cage enters the pressure cylinder.

Preferably, the connecting assembly comprises a connecting annular handle 4 arranged on the side connecting frame 2, and a connecting belt 5 is penetrated in the connecting annular handle 4; the connecting assembly comprises four connecting annular handles 4, the four connecting annular handles 4 are uniformly distributed on the side connecting frame 2, and two adjacent connecting annular handles 4 are connected through a connecting belt 5; through the arrangement, the device disclosed by the invention is more convenient to transport, and meanwhile, four corners are adopted for transporting, so that the device disclosed by the invention is smoother in the transporting process, and meanwhile, as greater optimization, the inner part of the connecting annular handle 4 is provided with an arc surface, and the arrangement can ensure that the position of the connecting belt 5 connected with the annular handle 4 is relatively fixed, and the connecting positions of the connecting belt 5 and the connecting annular handle 4 are the same; the stability of the whole device is better, and the phenomenon that the whole device is inclined due to the fact that a certain area is singly suspended is avoided, and the influence on follow-up normal production and use is avoided.

Preferably, at least two placing frames 3 are arranged on the bottom supporting frame 1, and the placing frames 3 are uniformly and symmetrically distributed on the bottom supporting frame 1; due to the arrangement, the device disclosed by the invention can simultaneously produce a plurality of rotary targets, the production efficiency of the targets is accelerated, and meanwhile, as for greater optimization, the device is provided with a plurality of placing frames 3, and the placing frames 3 are uniformly and symmetrically distributed, so that the stress of the whole device is more uniform during subsequent work, and the service life of the device disclosed by the invention is better ensured.

Preferably, each annular bracket 31 is provided with a clamping groove 33, the transverse connecting frame comprises a transverse connecting frame body 32, and the transverse connecting frame body 32 is provided with a barb clamping block 34; the barb clamping block 34 corresponds to the clamping groove 33; the arrangement changes the connection mode of the traditional transverse connecting frame body 32 and the annular bracket 31; the connection between the annular bracket 31 and the transverse connecting frame is better realized through the matching of the barb clamping block 34 and the clamping groove 33; as a greater optimization, in the present invention, the snap-in groove 33 is located at the lower end of the annular bracket 31, and the opening of the snap-in groove 33 is arranged towards the bottom support frame 1; the inner side surface of the transverse connecting frame is attached to the outer side surface of the annular bracket 31; with the arrangement, under the condition that the transverse connecting frame is connected with the annular bracket 31, the transverse connecting frame also plays a supporting role for the annular bracket 31; this arrangement makes the cross-connecting bracket more tightly connected to the ring bracket 31.

Preferably, a plurality of transverse connecting brackets 6 used for increasing the strength of the suspension cage are arranged on the bottom supporting frame 1, and one end of each transverse connecting bracket 6 is connected with the side connecting frame 2; the transverse connecting bracket 6 is arranged inside the suspension cage, plays a role in supporting and reinforcing, and plays a role in separating, because the transverse connecting bracket 6 is arranged between the placing frames 3, the placing frames 3 are connected with the side connecting frames 2 through the arrangement, so that the placing frames 3 obtain more supporting force, the strength of the placing frames 3 is enhanced to a certain extent, and the placing frames 3 can bear more impact when the mould impacts the placing frames 3.

Preferably, in the invention, the transverse connecting bracket 6 is connected with a reinforced inclined rod 7, one end of the reinforced inclined rod 7 is connected with the transverse connecting bracket 6, and the other end is connected with the side connecting frame 2; the arrangement of the reinforced inclined rod 7 ensures that the transverse connecting bracket 6 and the side connecting frame 2 are connected into a whole, thereby better ensuring the stability of the whole device; meanwhile, the side connecting frame 2 comprises top annular steel pipe 202 supports, and the top annular steel pipes 202 are connected with the annular connecting steel pipe 101 through longitudinal side supports 201; this arrangement allows the side attachment frame 2 to be lightweight while better ensuring the integrity of the overall device.

Preferably, the bottom support frame 1 of the present invention comprises an annular connection steel pipe 101, a plurality of longitudinal rectangular steel pipes 102 are arranged inside the annular connection steel pipe 101, the longitudinal rectangular steel pipes 102 are distributed in parallel, and the end of each longitudinal rectangular steel pipe 102 is connected to the annular connection steel pipe 101; due to the arrangement, the assembly of the bottom support frame 1 is facilitated, and meanwhile, the lower end face of the bottom support frame 1 is better flattened, the lower end face of the annular connecting steel pipe 101 and the lower end face of the longitudinal rectangular steel pipe 102 are positioned on the same plane, and the height of the longitudinal rectangular steel pipe 102 is the same as that of the longitudinal rectangular steel pipe 102; due to the arrangement, the stability of the whole device can be well guaranteed, and the rotary target die is convenient to fill.

An assembly process of a rotary target forming suspension cage comprises the following steps:

(1) determining the size of the suspension cage, and selecting each part with proper size;

(2) assembling a bottom supporting frame 1, fixing an annular connecting steel pipe 101, and additionally arranging a longitudinal rectangular steel pipe 102 on the inner wall of the annular connecting steel pipe 101;

(3) after the step (2) is finished, welding a plurality of placing frames 3 on the bottom supporting frame 1, wherein a ring-shaped support 31 at the lowest end in the bottom supporting frame 1 is connected with the bottom supporting frame 1 in a welding mode, and all contact positions of the ring-shaped support 31 and the bottom supporting frame 1 are subjected to welding treatment;

(4) after the step (3) is finished, welding a side connecting frame 2 on the periphery of the bottom supporting frame 1, wherein a longitudinal side support 201 in the side connecting frame 2 is connected with the bottom supporting frame 1;

(5) after the step (4) is finished, welding a transverse connecting support 6, wherein one end of the transverse connecting support 6 is connected with the side face of any one placing frame 3, the other end of the transverse connecting support 6 is connected with a side face connecting frame 2 which is closer to the placing frame 3, meanwhile, a reinforced inclined rod 7 is connected to the transverse connecting support 6, one end of the reinforced inclined rod 7 is connected with the transverse connecting support 6, and the other end of the reinforced inclined rod is connected with the side face connecting frame 2;

(6) after the step (5) is finished, arranging a connecting annular handle 4 on the top annular steel pipe 202 on the side connecting frame 2, and connecting a connecting belt 5 in the connecting annular handle 4 in a penetrating manner;

(7) and (6) after the step (6) is finished, assembling one rotating target production suspension cage, and repeating the steps (1) - (6) if another suspension cage needs to be assembled repeatedly.

In the steps, the connection of all the components in the bottom supporting frame 1, the connection of all the components in the side connecting frame 2, the connection of the placing frame 3 and the bottom supporting frame 1, and the connection of the transverse connecting bracket 6 and the reinforcing inclination are all performed in a welding mode, so that the problem of welding point falling is avoided, in the invention, a plurality of first inserting grooves 103 are arranged on the inner wall of the annular connecting steel pipe 101, the first inserting grooves 103 are distributed around the circumference of the inner wall of the annular connecting steel pipe 101, the end of the longitudinal rectangular steel pipe 102 is connected with a plug column 104, the plug column 104 is inserted into the first plug groove 103, after the connection, the welding operation of the end part of the longitudinal rectangular steel pipe 102 and the annular connecting steel pipe 101 is carried out, due to the arrangement, the overall structural strength of the bottom support frame 1 is increased, and the risk that welding spots at the joint of the longitudinal rectangular steel pipe 102 and the annular connecting steel pipe 101 fall off and are separated together is well avoided.

It is clear that the specific implementation of the present invention is not restricted to the above-described embodiments, but that various insubstantial modifications made using the method concepts and solutions of the present invention are within the scope of the invention.

Claims (5)

1. A rotary target material forming suspension cage is characterized in that the forming suspension cage comprises a bottom supporting frame, a placing frame is arranged on the bottom supporting frame, and an annular frame groove for placing a rotary target material is formed in the placing frame; a side connecting frame is arranged on the bottom supporting frame, and the side connecting frame is connected with a connecting assembly used for pulling the suspension cage to move; the bottom supporting frame is at least provided with two placing frames, and the placing frames are uniformly and symmetrically distributed on the bottom supporting frame; the placing frame comprises a plurality of annular supports, the annular supports are arranged in parallel, and the annular supports are longitudinally distributed and arranged along the direction perpendicular to the bottom supporting frame; the annular brackets are connected through a transverse connecting frame; each annular bracket is provided with a clamping groove, the transverse connecting frame comprises a transverse connecting frame body, and barb clamping blocks are arranged on the transverse connecting frame body; the barb clamp blocks correspond to the clamping grooves; the clamping groove is positioned at the lower end of the annular bracket, and the opening of the clamping groove is arranged towards the bottom supporting frame; and the inner side surface of the transverse connecting frame is attached to the outer side surface of the annular bracket.

2. The rotary target forming suspension cage of claim 1, wherein the connecting assembly comprises a connecting ring-shaped handle disposed on the side connecting frame, and a connecting band is threaded into the connecting ring-shaped handle; coupling assembling includes four connection annular handles, four connect annular handle evenly distributed on side connection frame to be connected through the connecting band between two adjacent connection annular handles.

3. The rotary target forming cage of claim 1, wherein the bottom support frame is provided with a plurality of transverse connecting brackets for increasing the strength of the cage, one end of each transverse connecting bracket being connected to the side connecting frame.

4. The rotary target forming suspension cage of claim 3, wherein the transverse connecting bracket is connected with a reinforced inclined rod, one end of the reinforced inclined rod is connected with the transverse connecting bracket, and the other end of the reinforced inclined rod is connected with the side connecting frame.

5. The assembly process of a rotary target forming cage according to any of claims 1 to 4, wherein the assembly process comprises the steps of:

(1) determining the size of the suspension cage, and selecting each part with proper size;

(2) assembling a bottom support frame, fixing an annular connecting steel pipe, and additionally arranging a longitudinal rectangular steel pipe on the inner wall of the annular connecting steel pipe;

(3) after the step (2) is finished, welding a plurality of placing frames on the bottom supporting frame, wherein an annular support at the lowest end in the bottom supporting frame is connected with the bottom supporting frame in a welding mode, and all contact positions of the annular support and the bottom supporting frame are subjected to welding treatment;

(4) after the step (3) is finished, welding a side connecting frame on the periphery of the bottom supporting frame, wherein a longitudinal side support in the side connecting frame is connected with the bottom supporting frame;

(5) after the step (4) is finished, welding a transverse connecting support, wherein one end of the transverse connecting support is connected with the side face of any placing frame, the other end of the transverse connecting support is connected with a side face connecting frame which is closer to the placing frame, meanwhile, a reinforced inclined rod is connected to the transverse connecting support, one end of the reinforced inclined rod is connected with the transverse connecting support, and the other end of the reinforced inclined rod is connected with the side face connecting frame;

(6) after the step (5) is finished, arranging a connecting annular handle on the top annular steel pipe on the side connecting frame, and connecting a connecting belt in the connecting annular handle in a penetrating manner;

(7) and (6) after the step (6) is finished, assembling one rotating target production suspension cage, and repeating the steps (1) - (6) if another suspension cage needs to be assembled repeatedly.

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