KR101583195B1 - Homogenization apparatus of mixture in gas cylinders - Google Patents

Abstract

The present invention relates to a device for homogenizing gas mixtures in a gas container, comprising: a gas container support (150) configured to rotationally move between a standing position and a lying position by being hinged to a device frame (110); a bottom plate (151) which is formed vertically in the lower part of the gas container support (150) and has multiple rotary supports (160) where gas containers are placed; a cylinder (120) configured to rotationally move the gas container support (150) by being installed between the gas container support (150) and the device frame (110); a rotary drive shaft (170) installed in the longitudinal direction of the gas container (200) on the gas container support (150) and configured to be capable of rotating by being connected to a gear motor (190); a non-rotary drive shaft (171) formed aligned with the rotary drive shaft (170) at a certain interval on the gas container support; multiple rollers (180) installed on the rotary drive shaft (170) and the non-rotary drive shaft (171), respectively; and a control box (210) configured to control the device.

Description

BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to a homogenization apparatus for mixing gas in a gas container,

The present invention relates to a gas mixture homogenizing apparatus for a gas container, and more particularly, to a gas container holder 150 hinged to the apparatus frame 110 and configured to rotate between a standing state and a lying state; A bottom plate 151 formed vertically below the gas container pedestal 150 and provided with a plurality of rotating pedestals 160 for rotating the gas container; A cylinder 120 installed between the gas container pedestal 150 and the apparatus frame 110 to rotate the gas container pedestal 150; A drive rotation shaft 170 installed on the gas container pedestal 150 in the longitudinal direction of the gas container 200 and connected to the gear motor 190 to rotate; A non-driving rotary shaft (171) formed on the gas container pedestal at a predetermined interval in parallel with the driving rotary shaft (170); A plurality of rollers 180 each provided on the drive rotation shaft 170 and the non-drive rotation shaft 171; And a control box (210) formed to control the apparatus. [0002] The present invention relates to a gas mixture homogenizing apparatus for a gas container.

A variety of inert protective gases have been reported to improve the quality of arc welding. The types and ratios of mixed gases vary depending on the type of welding object such as iron, aluminum, and stainless steel, or the type of welding rod. , Nitrogen oxide, oxygen, carbon dioxide, and the like.

However, if only a predetermined gas component is injected into the gas container, the welding protection effect does not appear by itself, and a good effect can be obtained when the mixed gas injected to the welding portion is sufficiently homogenized.

As a conventional technique, a homogenization system comprising a homogenization chamber formed by a gas inlet and a gas outlet, a sensor for sensing a homogenization state of a mixed gas in the chamber, and a monitoring and residence time control is disclosed in Japanese Laid-Open Patent Publication No. 10-2009-0009950 have.

In addition to the mixed protective gas for arc welding, the use of protective gas for experimental use has recently been increasing, and development of new technology for aging homogenization of such mixed protective gas has been desired.

Unlike conventional homogenization techniques, when a plurality of gas containers into which a gas mixture is injected is placed on a homogenizer, the gas container is laid horizontally by a cylinder operation, and the gas container is rotated by a motor, The technology that can dramatically shorten the gas homogenization rate has been developed.

It is an object of the present invention to provide a gas mixture homogenizing apparatus for a gas container capable of homogenizing a plurality of gas containers in a plurality of gas containers by horizontally laying a plurality of gas containers by cylinder operation and then rotating the gas container by motor power .

In order to achieve the above object, the present invention provides a gas container comprising: a gas container pedestal 150 formed to hinge on an apparatus frame 110 and configured to rotate between a standing state and a laid down state and to support a side surface of the gas container;
A bottom plate 151 formed to extend vertically below the gas container pedestal 150 and having a plurality of rotating pedestals 160 formed to support and rotate the bottom of the gas container;
An elastic body 162 formed on the outer surface of the cam follower 161 and formed of resin or rubber so as to support the center of the lower portion of the gas container and an elastic body 162 formed on the outer surface of the cam follower 161, A rotation support 160 formed with a bearing 163 between the lower end of the bolt head of the bolt 164 and the elastic body 162;
A cylinder 120 installed between the gas container pedestal 150 and the apparatus frame 110 to rotate the gas container pedestal 150;
A drive rotation shaft 170 installed on the gas container pedestal 150 in the longitudinal direction of the gas container 200 and connected to the gear motor 190 to rotate;
A non-driving rotary shaft (171) formed on the gas container pedestal at a predetermined interval in parallel with the driving rotary shaft (170);
A plurality of bearings 181 provided on the drive rotation shaft 170 and the non-drive rotation shaft 171 and a plurality of metal rings (not shown) mounted on the circumferential surfaces of the bearings 181 are provided in the drive rotation shaft 170 and the non- A roller 180 having a snap ring 184 formed between the circumferential surface of the base ring 181 and the metal ring 182 and a rubber ring 182 formed on the circumferential surface of the metal ring 182, ;
And a control box 210 configured to control on-off switch operation, cylinder 120 operation, and gear motor 190 operation.

The rotation support 160 includes a cam follower 161 coupled to the bottom plate 151, an elastic body 162 formed on the outer surface of the cam follower 161 and formed of resin or rubber to support the center of the lower portion of the gas container, A bolt 164 for coupling the elastic body 162 and the cam follower 161 and a bearing 163 formed between the lower end of the bolt head and the elastic body 162 of the bolt 164.

The roller 180 includes a bearing 181 formed on the driving rotation shaft 170 and the non-driving rotation shaft 171, a metal ring 182 fitted on the circumferential surface of the bearing 181, A coating portion 183 of resin or rubber and a snap ring 184 formed between the circumferential surface of the base ring 181 and the metal ring 182.

The gas mixture homogenizing apparatus of the present invention is characterized in that when a plurality of gas containers filled with mixed gas are put on the apparatus and the power switch of the control box is turned on to start the apparatus, The gas container of the gas container is rotated about the hinge axis while the gas bottle is tilted upwardly at a level of about 5 to 10 degrees with respect to the gas container and then the gas container in which the cylinder is stopped and laid down is rotated by the gear motor to rotate the movable rotary shaft, A non-dynamic rotating shaft, and a plurality of gas containers thereabout are connected to each other to rotate so as to homogenize the mixed gas in the gas container. As the gas container 200 rotates, the rotation support 160 supporting the lower portion of the gas container and the rollers 180 having the plurality of non-active rotation shafts and the movable shafts supporting the side surface rotate together.

An installation cylinder 120 is provided between the gas container pedestal 150 and the apparatus frame 110. The engaging portion of the cylinder and the gas container pedestal and the apparatus frame forms a hinge connection, So that both ends of the cylinder can rotate.

The hinge shaft 130 formed between the apparatus frame 110 and the gas pedestal may be coupled to a middle portion of the gas container pedestal 150 because the rotation of the gas container pedestal can be facilitated.

The roller 180 is coated with resin (or rubber) on the surface of the circumferential surface for noise reduction, increase in frictional force, protection of the surface of the gas container, and the like.

As a result of performing the arc welding using the mixed gas after homogenizing for about 30 minutes according to the present invention, it was confirmed that the welding quality was remarkably improved as compared with the mixed gas in which homogenization was not performed.

In the present invention, when a plurality of gas vessels into which gas mixture is injected are turned on and the switch is turned on, the gas mixture homogenizing operation can be performed automatically and continuously, and the work time is shortened and the mass homogenization operation is accomplished by the set operation time, There is an effect that contributes greatly to the homogenization of the quality and the improvement of the productivity.

1 is a side view of a standing state and a laid-down state of the present invention;
2 is a plan view of the laid-down state of the present invention.
3 is a view showing the structure of the rotating pedestal 160 of the present invention.
4 is a view showing the structure of the roller 180 of the present invention.
Figure 5 shows a prototype of the present invention.

FIG. 1 is a side view of a standing state and a laid-down state according to the present invention. FIG. 1 shows a state where a left side is upright and a right side is a laid down state. The cylinder 120 is hinged at both ends between a device frame 110 and a gas container pedestal 150, The upper part of the gas container 150 is inclined from the vertical direction to the rear side, and the upper part of the gas container 150 is inclined upward from the horizontal. The tilting is intended to prevent the bottle from falling forward in a standing state, and to stabilize the rotating posture in a lying down state.

The gas container is shown to illustrate that it can be of various sizes and that a small gas container 200-2 can also be placed and homogenized, and the rollers 180 ) Are appropriately matched with each other.

The gear motor 160 installed at the upper end of the gas container pedestal 150 is connected to the drive rotation shaft 170 to rotate the drive rotation shaft. As shown in the plan view of FIG. 2, And a plurality of rollers 180 are installed at predetermined intervals on the respective rotation shafts. The gas container is rotated on the rollers 180, and the gas container is rotated by the rollers 180 And when the driving rotary shaft is rotated, the entire gas container is connected and rotated.

When the homogenizing operation is performed for a set time and the operation is completed, the motor is stopped and the cylinder is operated to raise the gas container pedestal 150 and the gas container 200. The gas container 200 is lowered, The same operation is repeated by raising the gas container.

3 is a view showing the structure of the rotating pedestal 160 of the present invention. The rotating pedestal 160 includes a cam follower 161 coupled to a bottom plate 151, An elastic body 162 formed of a resin (or rubber) formed to support the center of the bolt 164 and a bolt 164 for coupling the elastic body 162 and the cam follower 161; And is formed so as to smoothly rotate because it supports the lower part of the gas bottle and rotates together with the rotation of the gas bottle.

4 is a view showing the structure of the roller 180 of the present invention. The roller 180 includes a bearing 181 formed on a drive rotation shaft 170 and a non-drive rotation shaft 171, A metal ring 182 and a resin or rubber coating 183 formed on the circumferential surface of the metal ring 182 and a metal ring 182 between the circumferential surface of the bearing ring 181 and the metal ring 182 And a snap ring 184. By this roller structure, the gas bottle is smoothly rotated, thereby reducing noise, increasing frictional force, and preventing wear of the surface of the gas container.

The rotation shaft is not connected to the chain but is connected to the roller 180 of the rotation axis and the gas container 200 mounted thereon so that the entire gas container rotates together.

A series of operations for the homogenization of the mixed gas of the present invention are continuously performed by the program on the control box 210, and the operation time and the speed adjustment can be set to suit the type of composite gas, Mass homogenization can be performed.

FIG. 5 shows a prototype product of the present invention. In the prototype, four gas containers are mounted, and the number of rotation shafts can be increased so that four or more gas containers can be simultaneously operated. Do.

The configuration of the present invention is not limited to the above-described embodiment, but includes various embodiments that can be practiced in the ordinary technical category.

The present invention relates to an apparatus and a method for assembling the same, and more particularly, to an apparatus and a method for assembling the same. [0001] The present invention relates to a control valve for a gasoline engine,

Claims (3)

A gas container pedestal 150 formed to be hinged to the apparatus frame 110 and configured to rotate between a standing state and a laid down state and to support a side surface of the gas container;
A bottom plate 151 formed to extend vertically below the gas container pedestal 150 and having a plurality of rotating pedestals 160 formed to support and rotate the bottom of the gas container;
An elastic body 162 formed on the outer surface of the cam follower 161 and formed of resin or rubber so as to support the center of the lower portion of the gas container and an elastic body 162 formed on the outer surface of the cam follower 161, A rotation support 160 formed with a bearing 163 between the lower end of the bolt head of the bolt 164 and the elastic body 162;
A cylinder 120 installed between the gas container pedestal 150 and the apparatus frame 110 to rotate the gas container pedestal 150;
A drive rotation shaft 170 installed on the gas container pedestal 150 in the longitudinal direction of the gas container 200 and connected to the gear motor 190 to rotate;
A non-driving rotary shaft (171) formed on the gas container pedestal at a predetermined interval in parallel with the driving rotary shaft (170);
A plurality of bearings 181 provided on the drive rotation shaft 170 and the non-drive rotation shaft 171 and a plurality of metal rings (not shown) mounted on the circumferential surfaces of the bearings 181 are provided in the drive rotation shaft 170 and the non- A roller 180 having a snap ring 184 formed between the circumferential surface of the base ring 181 and the metal ring 182 and a rubber ring 182 formed on the circumferential surface of the metal ring 182, ;
And a control box (210) configured to control an on-off switch operation, a cylinder operation, and a gear motor (190) operation. delete delete

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