CN104209500A - Steering device used on foundry production line - Google Patents

Abstract

The invention relates to a steering device used on a foundry production line. A chassis is horizontally arranged on four supporting legs arranged at the lower part of the chassis by first bolts; the upper surface of the chassis is provided with four supports along the periphery; first bearings are respectively arranged in the four supports; the first bearings are connected with the supports by hinge pins; a bearing seat is arranged at the center position of the upper surface of the chassis; a second bearing, a shaft sleeve and a second bearing are sequentially arranged in the bearing seat; one end of a rotating shaft is arranged at the center position on the bottom of a rotary table by a third bolt and the rotating shaft corresponds to the bearing seat below; both sides of the rotary table are respectively provided with beams; a side roller carrier is arranged on the beams; the side roller carrier is horizontal vertical to the beams; a plurality of side rollers are arranged on the side roller carrier. According to the invention, by arranging four supports with the bearings around the chassis and the rotary table, surrounding supporting is implemented; by multipoint supporting, stable steering of a tool die is implemented; not only is quality of a casting guaranteed, but also the service life of the tool die is effectively prolonged and the fault rate of steering equipment is reduced.

Description

Transfer on foundry production line

 

Technical field

The invention belongs to and relate to a kind of Casting Equipment, be specifically related to a kind of transfer on foundry production line.

Background technology

Carry out on the device fabrication line cast utilizing mould, the transhipment of moulds of industrial equipment always is and being positioned on two row's rollers of taking utilizes the rotation of roller, completes moulds of industrial equipment recycling on a production line.In the process of transhipment, be subject to the impact of the factor such as workshop size, technological requirement restriction, moulds of industrial equipment, in the flow process of production line, need to change direction.Traditional transfer, connects two limit roller shelfs, in integrally-built center by iron stand, 1 rolling bearing is set, realizes turning to, in the process used, due to single bearing load-bearing, cause it especially easily to damage, fault rate is high, because former support only has a center supporting point, cause moulds of industrial equipment can produce in steering procedure and rock, tilt, directly have influence on the quality of sand mold, thus affect product quality, reduce the service life of moulds of industrial equipment, lose larger.

Summary of the invention

Technical problem to be solved by this invention overcomes above-mentioned deficiency, a kind of transfer on foundry production line is provided, which solves moulds of industrial equipment can produce in steering procedure and rock, tilt problem, by multi-point support, achieve moulds of industrial equipment and steadily turn to, ensure that the quality of foundry goods, and effectively extend moulds of industrial equipment service life, reduce the fault rate of turning facilities.

Technical scheme of the present invention: a kind of transfer on foundry production line, comprise chassis, rotating disk, bearing, crossbeam, limit turning rolls and several limit rollers, described chassis is horizontally set on four supporting legs of its underpart by the first bolt, four bearings are provided with along surrounding above chassis, clutch shaft bearing is respectively equipped with in four bearings, clutch shaft bearing is connected with bearing by bearing pin, center above chassis is provided with bearing block, the second bearing is provided with successively in bearing block, axle sleeve, second bearing, one end of rotating shaft is located at rotating disk bottom centre position by the 3rd bolt, correspondingly with the bearing block below it to arrange, the both sides of described rotating disk are respectively equipped with crossbeam, described limit turning rolls is located on crossbeam, and limit turning rolls and crossbeam horizontal vertical, limit turning rolls is provided with several limit rollers.

Further, described four bearings are respectively and are connected with chassis by soket head cap screw.

Further, described clutch shaft bearing is vertically located in bearing, is connected with bearing by bearing pin, and described clutch shaft bearing is rolling bearing.

Further, described crossbeam is connected with rotating disk by the first bolt.

Further, described limit roller is connected with limit turning rolls by spring pad, nut, limit roller shaft.

Further, be provided with bearing in the roller of described limit, roller shaft one end, limit is connected with the bearing in roller centre, limit, and the other end is fixed on the turning rolls of limit by nut, and limit roller rotates around limit roller shaft.

Further, the center line being located at the rotating shaft bottom rotating disk is consistent with the center line of the bearing block be located on chassis, and one end of rotating shaft extend in bearing block.

Further, described bearing pin is provided with split pin.

Further, described limit turning rolls is located at the top of rotating disk by crossbeam.

The present invention compared with prior art has following beneficial effect: the present invention is by the center between chassis and rotating disk, bearing block and rotating shaft are set, between bearing block and rotating shaft, bearing is coiled in parallel installation two, ensure the stability in centre, in the surrounding of chassis and rotating disk, four bases with bearing are installed, for the support of surrounding, pass through multi-point support, achieve moulds of industrial equipment steadily to turn to, eliminate moulds of industrial equipment can produce in steering procedure and rock, tilt phenomenon, not only ensure that the quality of foundry goods, and effectively extend moulds of industrial equipment service life, reduce the fault rate of turning facilities.

Accompanying drawing explanation

Fig. 1 is front view of the present invention;

Fig. 2 is top view of the present invention.

In figure: 1-supporting leg, 2-first bolt, 3-chassis, 4-soket head cap screw, 5-bearing, 6-bearing pin, 7-split pin, 8-clutch shaft bearing, 9-crossbeam, 10-limit roller shaft, 11-limit turning rolls, 12-nut, 13-spring pad, 14-limit roller, 15-second bolt, 16-rotating shaft, 17-axle sleeve, 18-second bearing, 19-bearing block, 20-the 3rd bolt, 21-rotating disk.

Detailed description of the invention

For understanding the present invention, below in conjunction with accompanying drawing, the present invention is further illustrated:

A transfer on foundry production line, comprises chassis 3, rotating disk 21, bearing 5, crossbeam 9, limit turning rolls 11 and several limit rollers 14.As shown in Figure 1 and Figure 2, described chassis 3 is horizontally fixed on four supporting legs 1 of its underpart by the first bolt 2, four bearings 5 are mounted with along surrounding above chassis 3, four bearings 5 are respectively and are connected with chassis 3 by soket head cap screw, are respectively equipped with clutch shaft bearing 8 in four bearings 5, and described clutch shaft bearing 8 is rolling bearing, clutch shaft bearing 8 is connected with bearing 5 by bearing pin 6, after connection, bearing pin 6 is plugged split pin 7, is fixed.Center above chassis 3 is provided with bearing block 19, be fixed by bolt, the second bearing 18 is provided with successively in bearing block 19, axle sleeve 17, second bearing 18, axle sleeve 17 is contained between two the second bearings 18, one end of rotating shaft 16 is located at the center bottom rotating disk 21 by the 3rd bolt 20, correspondingly with the bearing block 19 below it to arrange, the center line ensureing the rotating shaft 16 be located at bottom rotating disk 21 is consistent with the center line of the bearing block 19 be located on chassis 3, one end of rotating shaft 16 extend in bearing block 19 and is connected with it, between bearing block 19 and rotating shaft 16, the second bearing 18 is coiled in parallel installation two.The both sides of described rotating disk 21 install crossbeam 9 respectively, described crossbeam 9 is fixed by the first bolt 15 and rotating disk 21, crossbeam is installed two limit turning rolls 11 in a welding manner, with crossbeam 9 horizontal vertical, limit turning rolls 11 is installed the limit roller 14 that several have assembled, is fixed by spring pad 13, nut 12, limit roller shaft 10.Be provided with bearing in described limit roller 14, limit roller shaft 10 one end is connected with the bearing in limit roller 14 centre, and the other end is fixed on limit turning rolls 11 by nut 12, and limit roller 14 rotates around limit roller shaft 10.

After above-mentioned transfer installation, 4 bearings 5 on chassis 3 and bearing 8 will be shared top rotating disk 22, come from all wt of crossbeam 9 and limit turning rolls 11, pass through multi-point support, realize centered by the center line of bearing block 19, the second bearing 18 be arranged in parallel with 2 in bearing block 19 realizes steadily turning to of moulds of industrial equipment jointly, ensure that moulds of industrial equipment can produce in steering procedure to rock, tilt phenomenon, effectively improve the quality of foundry goods, extend moulds of industrial equipment service life, reduce the maintenance frequency of equipment.

Above-described embodiment only understands the present invention for those skilled in the art, is not limitation of the present invention, all do within aim of the present invention and principle any amendment, equivalent replace and improve, all should be included within protection scope of the present invention.

Claims (9)

1. the transfer on foundry production line, comprise chassis, rotating disk, bearing, crossbeam, limit turning rolls and several limit rollers, it is characterized in that described chassis is horizontally set on four supporting legs of its underpart by the first bolt, four bearings are provided with along surrounding above chassis, clutch shaft bearing is respectively equipped with in four bearings, clutch shaft bearing is connected with bearing by bearing pin, center above chassis is provided with bearing block, the second bearing is provided with successively in bearing block, axle sleeve, second bearing, one end of rotating shaft is located at rotating disk bottom centre position by the 3rd bolt, correspondingly with the bearing block below it to arrange, the both sides of described rotating disk are respectively equipped with crossbeam, described limit turning rolls is located on crossbeam, and limit turning rolls and crossbeam horizontal vertical, limit turning rolls is provided with several limit rollers.

2. the transfer on foundry production line according to claim 1, be is characterized in that described four bearings are respectively and is connected with chassis by soket head cap screw.

3. the transfer on foundry production line according to claim 1, is characterized in that described clutch shaft bearing is vertically located in bearing, is connected by bearing pin with bearing, described clutch shaft bearing is rolling bearing.

4. the transfer on foundry production line according to claim 1, is characterized in that described crossbeam is connected with rotating disk by the first bolt.

5. the transfer on foundry production line according to claim 1, is characterized in that described limit roller is connected with limit turning rolls by spring pad, nut, limit roller shaft.

6. the transfer on foundry production line according to any one of Claims 1 to 5, it is characterized in that, in the roller of described limit, bearing is installed, roller shaft one end, limit is connected with the bearing in roller centre, limit, the other end is fixed on the turning rolls of limit by nut, and limit roller rotates around limit roller shaft.

7. the transfer on foundry production line according to claim 1, it is characterized in that the center line of the rotating shaft be located at bottom rotating disk is consistent with the center line of the bearing block be located on chassis, one end of rotating shaft extend in bearing block.

8. the transfer on foundry production line according to claim 1, is characterized in that described bearing pin is provided with split pin.

9. according to Claims 1 to 5,6, the transfer on foundry production line described in 7 or 8 any one, it is characterized in that described limit turning rolls is located at the top of rotating disk by crossbeam.