KR100417810B1 - A control switch of hoist using air pressure - Google Patents

Abstract

The present invention relates to an operation switch for a pneumatic hoist, in more detail, when the operation switch installed on the wire connected to the load vertically moved up and down to adjust the movement of the load while the wire is wound or released, the operation switch The horizontal movement of the cylinder moves horizontally with the load as well as the horizontal movement. When applying such a mechanism in the industrial field relates to a pneumatic hoist operation switch characterized in that the productivity and work efficiency is improved.

Description

Control switch for pneumatic hoist {A CONTROL SWITCH OF HOIST USING AIR PRESSURE}

The present invention relates to an operation switch for a pneumatic hoist, in more detail, when the operation switch installed on the wire connected to the load vertically moved up and down to adjust the movement of the load while the wire is wound or released, the operation switch The horizontal movement of the cylinder moves horizontally with the load as well as the horizontal movement. When applying such a mechanism in the industrial field relates to a pneumatic hoist operation switch characterized in that the productivity and work efficiency is improved.

As is well known, a hoist system using air pressure is mainly used in industrial sites, especially in an environment in which it is difficult to use electricity or to prevent safety accidents caused by the use of electricity. It is a device to make the handling work of the corresponding items more smooth.

Such a pneumatic hoist system can be said to have a large contribution in terms of simple automation and labor saving of the factory because the installation mechanism is simple, the three-dimensional operation is possible by the UP / DOWN switch, and the floating is possible.

1 is a cross-sectional view showing a schematic configuration of a conventional manifold and an operation switch.

Looking at the conventional pneumatic hoist shown is a manifold (10) is attached to the side of the cylinder (not shown) serves as a guide for introducing external compressed air into the cylinder and discharge the compressed air in the cylinder to the atmosphere, The operation to move up and down is as follows.

First, the external compressed air is introduced through the inlet pipe 3 of the manifold 10 and passes through the first port 15 of the manifold 10 to the operation switch 20 through an air tube not shown. .

That is, the compressed air passing through the air pipe flows into the third port 25 of the operation switch 20 and then moves to the first and second flow paths 23 and 24. At this time, the up switch 21 is pressed. When the compressed air passes through the fourth port 26 of the operation switch 20 through a connecting pipe 27 connecting the up operation means and the down operation means, the second port 16 of the manifold 10. After passing through the connection port 14 directly connected to the cylinder and finally push the cylinder to raise the load.

At this time, if the weight is heavier than the allowable load of the hoist to prevent it through the check valve 11 is connected to the manifold (10).

Then, if the load is raised to the desired position through the upswitch 21 and then the upswitch 21 is released, the compressed air is not introduced or leaked out of the cylinder.

In addition, in order to lower the load, the down switch 22 is pressed. When the down switch 22 is pressed, the outlet 28 is opened, and the compressed air in the cylinder passes through the connection port 14 and the second port. After passing through the (16), and is discharged to the outside through the discharge port 28 through the fourth port 26.

That is, the up switch 21 plays a role of introducing and blocking the air compressed in the compressor into the cylinder, and the down switch 22 plays a role of discharging and blocking the air of the cylinder.

On the other hand, reference numeral 17 that is not described is a fastening portion for coupling the manifold 10 to the cylinder.

However, since the above-mentioned pneumatic hoist system adjusts the up and down movement of the load by using a manual operation switch separately from the handling of the load, one hand operates the operation switch and the other hand loads the load during most operations. Due to the handling of the load caused by the handling and operation inconvenience, there was a problem of reducing the efficiency and productivity of the work.

Accordingly, the present invention has been invented to solve the above problems, the object of the present invention is to enable the function of the existing manual operation and the handling of the load and the switch operation operation at the same time, additionally the operation switch It provides an operation switch for a pneumatic hoist, characterized in that the load is used to remove / attach to the wire (moving) up and down.

1 is a cross-sectional view showing the general configuration of a conventional manifold and operation switch.

Figure 2 is a cross-sectional view showing the configuration of the manifold and the operation switch according to the present invention.

Figure 3a is a cross-sectional view showing a state when the operation switch according to the invention raised to the top.

3B is a sectional view showing a state when the operation switch according to the present invention is lowered.

4 is a view showing a mounting configuration of the operation switch according to the present invention.

* Description of the symbols for the main parts of the drawings *

110: manifold 120: operation switch

127: transfer valve 128: inner case

130: outer case 132: moving hole

161: first air control means 162: second air control means

200: cylinder 201: wire

210: bonding plate 212: magnetic material

In the present invention for achieving the above object, in the operation switch of the hoist for moving the load using the pressure of air,

The operation switch and the outer case is formed with a plurality of protruding rod in the cylindrical; A cylinder is formed inside the outer case, and a moving hole is formed on the outer circumferential surface of the protrusion rod so as to allow shangdongdong, and the upper part supplies compressed air to the third port and the cylinder serving as a passage for introducing external compressed air or A fourth port serving as a passage for discharging the compressed air, and an inner case having a discharge port serving as an external discharge passage of the compressed air at a lower portion thereof; The first flow path and the fourth port is formed in a cylindrical inside of the inner case, connected to the protruding rod of the outer case and together with the shanghai dong, and guides the compressed air coming through the third port to the fourth port. A moving valve having a second flow passage configured to guide the compressed air discharged from the discharge port; Is formed in the first flow pipe of the transfer valve to open the first flow pipe when the transfer valve is raised, the upper portion is in contact with the upper side of the inner case while passing through the upper portion of the transfer valve in a rod shape and the lower plate A first air control means that the upper surface of the first flange of the first flange is caught by the moving valve, and a first spring is mounted between the lower surface of the first flange and the moving valve to move up and down; The lower part is connected to the lower side of the inner case while penetrating the lower part of the moving valve in a rod shape so as to be formed in the second flow pipe of the moving valve to open the second flow pipe when the moving valve descends, and the upper part of the disk Operation of the pneumatic hoist, characterized in that the lower side of the disc of the second flange is caught by the transfer valve and the second spring is mounted between the disc upper side and the transfer valve, the second air control means for elastic movement up and down Provide a switch.

In the present invention, one end is fixed to the upper side of the transfer valve by a pin spring, so that manual control of the first air control means is possible through a manual switch drawn out between the inner case and the first flange. It is desirable to.

In addition, in the present invention, the outer surface of the operation switch is formed with a coupling groove for the magnetic coupling, the coupling plate is attached to the magnetic material for coupling with the coupling groove on the wire hanging off the load is fixed to the wire by the coupling guide. desirable.

Hereinafter, the configuration of the present invention will be described in detail based on the accompanying drawings.

At this time, this embodiment is not intended to limit the scope of the present invention, but is presented by way of example only and the same parts as the conventional configuration using the same reference numerals and names.

Figure 2 is a cross-sectional view showing the configuration of the manifold and the operation switch according to the present invention, Figure 3a is a cross-sectional view showing a state when the operation switch according to the present invention to the top, Figure 3b is a control switch according to the present invention It is sectional drawing which shows the state at the time of lowering.

4 is a figure which shows the mounting structure of the operation switch which concerns on this invention.

As shown, the pneumatic hoist operation switch according to the present invention is mounted on a wire tied to the load to be moved, and moving the operation switch up and down so that the load is moved up and down, It is characterized in that the handling at the same time.

That is, when looking at the configuration of the present invention in detail, the operation switch 120 largely includes an outer case 130 and the inner case 128, the first air control means 161 and the second air control means 162 It is composed of a valve 127, the outer case 130 is formed in a plurality of protruding bar 131 in a cylindrical shape.

In addition, the inner case 128 is formed in a cylinder inside the outer case 130, the movement hole 132 is formed on the outer circumferential surface to enable the shangdong of the protruding rod 131, the upper external compressed air The third port 125 serves as a passage for inflow and the fourth port 126 serves as a passage for supplying compressed air to the cylinder 200 or for discharging the compressed air of the cylinder 200, and the lower portion is compressed. A discharge port 129 serving as an external discharge passage of air is mounted.

In addition, the moving valve 127 is formed in a cylinder inside the inner case 128, is connected to the protruding rod 131 of the outer case 130 and together with the shangdong, the third port 125 The first flow path 151 for guiding the compressed air coming through the fourth port 126 and the second flow path 152 for guiding the compressed air discharged from the fourth port 126 to the discharge port 129. ) Is formed inside.

At this time, a first air control means 161 is formed to open and close the first flow path pipe 151, the first air control means 161 is connected to the first flow path pipe 151 of the moving valve 127. The upper portion is connected to the upper side of the inner case 128 while passing through the upper portion of the transfer valve 127 in a rod shape so as to open the first flow path pipe 151 when the transfer valve 127 is raised. The lower part of the disc is the upper surface of the disk of the first flange (122a) is caught by the moving valve 127 and the first spring (124a) is mounted between the lower plate and the moving valve 127 to perform the vertical elastic movement. .

In addition, a second air control means 162 is formed to open and close the second flow path pipe 152, the second air control means 162 to the second flow path pipe 152 of the moving valve 127. The lower part is connected to the lower side of the inner case 128 while penetrating the lower part of the moving valve 127 in a rod shape so as to open the second flow path pipe 152 when the moving valve 127 is lowered. The upper side of the disc of the second flange 122b of the disc is caught by the transfer valve 127 and the second spring 124b is mounted between the disc upper side and the transfer valve 127 to perform the up and down elastic movement. .

Reference numerals 123a and 123b denote seals for seating the first flange 122a and the second flange 122b on the moving valve 127.

On the other hand, one end is fixed to the upper side of the transfer valve 127 by a pin spring to enable manual control of the first air control means 161, between the inner case 128 and the first flange 122a Passive switch 121 is guided to the outside is provided.

In addition, a coupling groove 230 for magnet coupling is formed on an outer surface of the manipulation switch 120, and a magnetic body 212 coupling the load 202 to the coupling groove 230 on the hanging wire 201. Is attached to the coupling plate 210 is fixed to the wire 201 by a coupling guide 211.

Actions and effects of the pneumatic hoist operation switch according to the present invention are as follows.

The load 202 to be moved by the user is connected with the wire 201 derived from the cylinder 200, and the operation switch 120 is attached to the coupling plate 210 positioned on the wire 201. When the operation switch 120 is moved vertically, the wire 201 is moved up or down to adjust the height of the load 202, and when the operation switch 120 is moved horizontally, the rail is not shown. As a result, the cylinder 200 itself moves horizontally, and the load 202 moves horizontally.

In addition, a manifold 110 is attached to the side surface of the cylinder 200 by the fastening part 117. The compressed air is introduced into the cylinder 200 by a compressor (not shown). It serves to relieve the wire 201 by winding or discharge the compressed air inside the cylinder, the manifold 110 is equipped with a check valve 111 to prevent the failure of the device due to overload in advance. .

At this time, the operation switch 120 is a mechanism for controlling the movement of the compressed air, when the user moves the outer case 130 of the operation switch 120 vertically upward movement is coupled with the outer case 130 As the valve 127 is raised, the first plunger 122a is pressed to open the first flow passage 151 while pressing the first spring 124a.

Then, the external compressed air flows into the inlet pipe 113 of the manifold 110, passes through the first port 115, passes through the first air hose 221, and passes through the third port 125, The compressed air that has passed through the fourth port 126 by moving the open first flow pipe 151 and then passing through the second air hose 222 and passing through the second port 116 is connected to the cylinder 200. It is introduced into the cylinder 200 through the connection port 114.

On the contrary, when the user moves the outer case 130 of the operation switch 120 vertically downward, the moving valve 127 coupled with the outer case 130 descends while the second flanger 122b is pressed to the second. The second channel 152 is opened while pressing the spring 124b.

Then, the compressed air inside the cylinder 200 exits the connection port 114, passes through the second port 116, passes through the second air hose 222 and passes through the fourth port 126, The compressed air that has moved the opened second flow pipe 152 is discharged to the outside through the discharge port 129.

On the other hand, since the air pressure is not formed in the cylinder 200 during the initial operation, when the manual switch 121 is pressed, the first flow path 151 is opened, and the compressed air is compressed through the same process as described above. 200) will be introduced into the interior.

As described above, the operation switch for the pneumatic hoist according to the present invention can be operated up and down in parallel with the handling operation of the load has the effect of improving the work efficiency.

In addition, it is easy to use, its structure is simple, and it is easy to use because the outer case, which can be considered as a part of the wire or a part of the load, is naturally operated in the vertical direction of the load, as in the handling of the load. This facilitates shortening of work time and productivity.

Claims (5)

In the hoist operation switch for moving the load using the air pressure, The operation switch 120 and the outer case 130 is formed with a plurality of protruding bar 131 in a cylindrical shape; A third port is formed in a cylinder inside the outer case 130, a movement hole 132 is formed on the outer circumferential surface of the protrusion rod 131 to allow the shangdongdong, and the upper port serves as a passage for introducing external compressed air. The fourth port 126 is installed to supply the compressed air to the 125 and the cylinder 200 or to discharge the compressed air of the cylinder 200, and a lower portion of the discharge port serves as an external discharge passage of the compressed air. An inner case 128 on which the port 129 is mounted; The inner case 128 is formed in a cylindrical shape, is connected to the protruding rod 131 of the outer case 130 together with the shangdong, the fourth port of compressed air coming through the third port (125) A moving valve in which a first flow passage 151 for guiding to 126 and a second flow passage 152 for guiding compressed air discharged from the fourth port 126 to the discharge port 129 are formed therein ( 127); First air control means 161 is formed in the first flow pipe 151 of the moving valve 127 to perform an up and down elastic motion to open the first flow pipe 151 when the moving valve 127 is raised. and; Second air control means 162 is formed in the second flow pipe 152 of the moving valve 127 to perform the up and down elastic movement to open the second flow pipe 152 when the moving valve 127 is lowered. Operation switch for pneumatic hoist, characterized in that consisting of. According to claim 1, wherein the first air control means 161 is in the form of a rod through the upper portion of the transfer valve 127 in contact with the upper surface of the inner case 128, the lower portion is a disc and the disc A first flange 122a on which an upper side of the first latch is caught by the moving valve 127; A pneumatic hoist operation switch, comprising: a first spring 124a mounted between a lower plate of the first flange 122a and a moving valve 127 to open and close the first flow pipe 151. . According to claim 1, The second air control means 162 has a lower bar penetrates the lower side of the inner case 128 while penetrating the lower portion of the transfer valve 127, the upper portion is a disc and the disc A second flange 122b having the lower side of the moving valve 127 caught by the moving valve 127; Operation switch for a pneumatic hoist, characterized in that composed of a second spring 124b mounted between the upper surface of the disk of the second flange 122b and the moving valve 127 to open and close the second flow channel 152. . According to claim 1, One end is fixed to the upper side of the transfer valve 127 by a pin spring, passing through the inner case 128 and the first flange 122a through the manual switch 121 to the outside Operation switch for a pneumatic hoist, characterized in that to enable manual control of the first air control means (161) through. The method of claim 1, wherein a coupling groove 230 for magnet coupling is formed on the outer surface of the manipulation switch 120, and the load 202 is coupled to the coupling groove 230 on the hanging wire 201. The operation plate for the pneumatic hoist, characterized in that the coupling plate 210 is attached to the magnetic body 212 is fixed to the wire 201 by the coupling guide (211).