CN111716062A

CN111716062A - Splicing and positioning mechanism for welding underframe of sports ball containing frame

Info

Publication number: CN111716062A
Application number: CN202010636195.4A
Authority: CN
Inventors: 李鹏
Original assignee: Xianju Yanpiao Machinery Technology Co ltd
Current assignee: Xianju Yanpiao Machinery Technology Co ltd
Priority date: 2020-07-03
Filing date: 2020-07-03
Publication date: 2020-09-29

Abstract

The invention discloses a splicing and positioning mechanism for welding an underframe of a sports ball placing frame, which comprises a rack, wherein an electromagnet plate is fixed on the top surface of the middle part of a top plate of the rack, vertical supporting plates are fixed on the top surfaces of the top plates of the rack on the left side and the right side of the electromagnet plate, an upper top plate is fixed on the top surfaces of the two vertical supporting plates, a pressing cylinder is fixed in the middle of the top surface of the upper top plate, a push rod of the pressing cylinder penetrates through the bottom surface of the upper top plate and is fixed with an upper pressing plate, an elastic plate is fixed on the bottom surface of the upper pressing plate, and a plurality of separation blocks are fixed. The invention can compress all the longitudinal beams and keep a certain separation distance, thereby facilitating the subsequent welding use of the transverse beams and the longitudinal beams and being very convenient.

Description

Splicing and positioning mechanism for welding underframe of sports ball containing frame

Technical Field

The invention relates to the technical field of manufacturing of teaching appliances, in particular to a splicing and positioning mechanism for welding a bottom frame of a sports ball containing frame.

Background

The frame body is placed to current sports ball, it is generally the metal frame body, and its bottom plate generally is formed by a plurality of horizontal roof beams and vertical roof beam welding, and among the current welding manufacturing process, it is generally manual welding, places all horizontal roof beams and vertical roof beam on the flat board earlier, then, the concatenation is made up the back, manual spot welding, weld again, however, because its horizontal roof beam and vertical roof beam are all a plurality of, it is in welding process, can touch parts wherein carelessly, make it remove for it influences the welding, and can influence the interval between two adjacent vertical roof beams, influence welding quality.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a splicing and positioning mechanism for welding an underframe of a sports ball containing frame, which can tightly press all longitudinal beams and keep a certain separation distance, is convenient for subsequent welding of transverse beams and longitudinal beams and is very convenient.

The scheme for solving the technical problems is as follows:

a splicing and positioning mechanism for welding an underframe of a sports ball placing frame comprises a rack, wherein an electromagnetic steel plate is fixed on the top surface of the middle part of a top plate of the rack, vertical support plates are fixed on the top surfaces of the top plates of the rack on the left side and the right side of the electromagnetic steel plate, an upper top plate is fixed on the top surfaces of the two vertical support plates, a compression air cylinder is fixed in the middle of the top surface of the upper top plate, a push rod of the compression air cylinder penetrates through the bottom surface of the upper top plate and is fixed with an upper compression plate, an elastic plate is fixed on the bottom surface of the upper compression plate, and a plurality of separation;

a plurality of longitudinal beams are placed on the top surface of the electromagnet plate, the bottom surfaces of the longitudinal beams are pressed against the top surface of the electromagnet plate, the elastic plate is pressed against the top surfaces of the longitudinal beams, the separation block is positioned between the two longitudinal beams, and the side walls of the separation block are tightly attached to the side walls of the corresponding longitudinal beams.

A plurality of vertical guide rods are fixed on the top surface of the upper pressing plate, and the top ends of the vertical guide rods are inserted into guide through holes formed in the upper top plate.

The inner side wall of the guide through hole is fixedly provided with a guide sleeve, and the vertical guide rod is inserted in the corresponding guide sleeve.

The front part and the rear part of the top surface of the top plate of the rack are both fixed with a fixed plate, and the two fixed plates are both fixed with a side pressing mechanism;

the front ends and the rear ends of all the longitudinal beams are respectively clung to the side walls of the corresponding transverse beams, and the bottom surfaces of the transverse beams are pressed against the top surface of the electromagnet plate;

and the side pressing plates of the side pressing machine mechanisms are pressed against the side walls of the corresponding transverse beams.

The side pressing mechanism comprises side pressing cylinders which are fixed on the outer side walls of the corresponding fixed plates, and push rods of the side pressing cylinders penetrate through the fixed plates and are fixed with side pressing plates.

And the wall surfaces of the side compression plates are fixedly provided with protection plates which are pressed against the side walls of the corresponding transverse beams.

And the outer side wall of the side compression plate is fixedly provided with a transverse guide rod which is inserted in a transverse guide through hole formed in the fixed plate.

And a transverse guide sleeve is fixed on the inner side wall of the transverse guide through hole, and a transverse guide rod is inserted in the transverse guide sleeve.

The invention has the following outstanding effects: the device can compress all the longitudinal beams and keep a certain separation distance, so that the subsequent welding use of the transverse beams and the longitudinal beams is facilitated, and the device is very convenient.

Drawings

FIG. 1 is a schematic view of a partial structure of the present invention;

FIG. 2 is a partial cross-sectional view of the present invention;

fig. 3 is a partially enlarged view of fig. 2.

Detailed Description

In an embodiment, as shown in fig. 1 to 3, a splicing and positioning mechanism for welding an underframe of a sports ball placing frame comprises a frame 10, wherein an electromagnet plate 11 is fixed on the top surface of the middle of the top plate of the frame 10, vertical support plates 12 are fixed on the top surfaces of the top plates of the frame 10 on the left side and the right side of the electromagnet plate 11, an upper top plate 13 is fixed on the top surfaces of the two vertical support plates 12, a pressing cylinder 14 is fixed on the middle of the top surface of the upper top plate 13, a push rod of the pressing cylinder 14 penetrates through the bottom surface of the upper top plate 13 and is fixed with an upper pressing plate 15, an elastic plate 16 is fixed on the bottom surface of the upper pressing plate 15, and a plurality of separation blocks 161 are fixed;

a plurality of longitudinal beams 100 are placed on the top surface of the electromagnet plate 11, the bottom surfaces of the longitudinal beams 100 are pressed against the top surface of the electromagnet plate 11, the elastic plates 16 are pressed against the top surfaces of the longitudinal beams 100, the partition block 161 is located between the two longitudinal beams 100, and the side walls of the partition block 161 are abutted against the side walls of the corresponding longitudinal beams 100.

Further, a plurality of vertical guide rods 151 are fixed to the top surface of the upper pressing plate 15, and the top ends of the vertical guide rods 151 are inserted into the guide through holes 131 formed in the upper top plate 13.

Further, a guide sleeve 132 is fixed on an inner side wall of the guide through hole 131, and the vertical guide rod 151 is inserted into the corresponding guide sleeve 132.

Further, the front part and the rear part of the top surface of the top plate of the rack 10 are both fixed with a fixing plate 20, and the two fixing plates 20 are both fixed with a side pressing mechanism 30;

the front ends and the rear ends of all the longitudinal beams 100 are respectively closely attached to the side walls of the corresponding transverse beams 101, and the bottom surfaces of the transverse beams 101 are pressed against the top surface of the electromagnet plate 11;

the side pressing plates 31 of the side press mechanisms 30 are pressed against the side walls of the corresponding cross beams 101.

Further, the side pressing mechanism 30 includes side pressing cylinders 32, the side pressing cylinders 32 are fixed on the outer side walls of the corresponding fixed plates 20, and push rods of the side pressing cylinders 32 penetrate through the fixed plates 20 and are fixed with the side pressing plates 31.

Further, the side compression plates 31 have guard plates 33 fixed to the wall surfaces thereof, and the guard plates 33 are pressed against the side walls of the corresponding cross members 101.

Further, a lateral guide bar 34 is fixed to an outer side wall of the side pressing plate 31, and the lateral guide bar 34 is inserted into a lateral guide through hole formed in the fixed plate 20.

Further, a transverse guide sleeve 21 is fixed on the inner side wall of the transverse guide through hole, and the transverse guide rod 34 is inserted in the transverse guide sleeve 21.

In use, the present embodiment can press the bottom surfaces of all the longitudinal beams 100 to be welded against the top surface of the electromagnet plate 11, and ensure that the distance between two adjacent longitudinal beams 100 corresponds to the width of the upper separation block 161, generally, the electromagnet plate 11 will be coated with the placement position mark for convenient placement, then, the electromagnet plate 11 is opened, all the longitudinal beams 100 are fixed by adsorption, the bottom surface of the elastic plate 16 is pressed against the top surfaces of all the longitudinal beams 100 by pushing of the pressing cylinder 14, the separation block 161 is located between two longitudinal beams 100, the side wall of the separation block 161 is tightly attached to the side wall of the corresponding longitudinal beam 100, then, the electromagnet plate 11 is closed, the two transverse beams 101 are placed at the front and rear portions of all the longitudinal beams 100, the protection plate 33 is pressed against the side wall of the corresponding transverse beam 101 by pushing of the pushing cylinder 32, the front ends and the rear ends of all the longitudinal beams 100 are respectively tightly attached to the side walls of the corresponding transverse beams 101 to finish fixing, then manual welding can be carried out, and after welding is finished, all the parts can return, so that the device is very convenient.

The welding machine is suitable for mass production, the efficiency is greatly improved, and the subsequent welding quality is ensured.

The above embodiments are only for illustrating the invention and are not to be construed as limiting the invention, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the invention, therefore, all equivalent technical solutions also belong to the scope of the invention, and the scope of the invention is defined by the claims.

Claims

1. The utility model provides a frame is placed to sports spheroid chassis welding is with concatenation positioning mechanism, includes frame (10), its characterized in that: an electromagnet plate (11) is fixed on the top surface of the middle of a top plate of the rack (10), vertical support plates (12) are fixed on the top surfaces of the top plates of the rack (10) on the left side and the right side of the electromagnet plate (11), an upper top plate (13) is fixed on the top surfaces of the two vertical support plates (12), a pressing cylinder (14) is fixed on the middle of the top surface of the upper top plate (13), a push rod of the pressing cylinder (14) penetrates through the bottom surface of the upper top plate (13) and is fixed with an upper pressing plate (15), an elastic plate (16) is fixed on the bottom surface of the upper pressing plate (15), and a plurality of separation blocks (161) are fixed on the bottom surface of the elastic;

a plurality of longitudinal beams (100) are placed on the top surface of the electromagnet plate (11), the bottom surfaces of the longitudinal beams (100) are pressed against the top surface of the electromagnet plate (11), the elastic plate (16) is pressed against the top surfaces of the longitudinal beams (100), the separation block (161) is positioned between the two longitudinal beams (100), and the side wall of the separation block (161) is tightly attached to the side wall of the corresponding longitudinal beam (100).

2. The splicing and positioning mechanism for welding the underframe of the sports ball placing frame according to claim 1, is characterized in that: a plurality of vertical guide rods (151) are fixed on the top surface of the upper pressing plate (15), and the top ends of the vertical guide rods (151) are inserted into guide through holes (131) formed in the upper top plate (13).

3. The splicing and positioning mechanism for welding the underframe of the sports ball placing frame according to claim 2, is characterized in that: and a guide sleeve (132) is fixed on the inner side wall of the guide through hole (131), and the vertical guide rod (151) is inserted in the corresponding guide sleeve (132).

4. The splicing and positioning mechanism for welding the underframe of the sports ball placing frame according to claim 1, is characterized in that: the front part and the rear part of the top surface of the top plate of the rack (10) are respectively fixed with a fixed plate (20), and the two fixed plates (20) are respectively fixed with a side pressing mechanism (30);

the front ends and the rear ends of all the longitudinal beams (100) are respectively clung to the side walls of the corresponding transverse beams (101), and the bottom surfaces of the transverse beams (101) are pressed against the top surface of the electromagnet plate (11);

the side pressing plates (31) of the side press mechanisms (30) are pressed against the side walls of the corresponding transverse beams (101).

5. The splicing and positioning mechanism for welding the underframe of the sports ball placing frame according to claim 4, is characterized in that: the side pressing mechanism (30) comprises side pressing cylinders (32), the side pressing cylinders (32) are fixed on the outer side walls of the corresponding fixing plates (20), and push rods of the side pressing cylinders (32) penetrate through the fixing plates (20) and are fixed with side pressing plates (31).

6. The splicing and positioning mechanism for welding the underframe of the sports ball placing frame according to claim 4, is characterized in that: and protective plates (33) are fixed on the wall surfaces of the side compression plates (31), and the protective plates (33) are pressed against the side walls of the corresponding transverse beams (101).

7. The splicing and positioning mechanism for welding the underframe of the sports ball placing frame according to claim 4, is characterized in that: and a transverse guide rod (34) is fixed on the outer side wall of the side compression plate (31), and the transverse guide rod (34) is inserted into a transverse guide through hole formed in the fixed plate (20).

8. The splicing and positioning mechanism for welding the underframe of the sports ball placing frame according to claim 7, is characterized in that: and a transverse guide sleeve (21) is fixed on the inner side wall of the transverse guide through hole, and a transverse guide rod (34) is inserted in the transverse guide sleeve (21).