CN105752595A - Air cushion-suspending conveyor leveling method - Google Patents

Abstract

The invention discloses an air cushion-suspending conveyor leveling method and belongs to the technical field of air-suspending machinery. The air cushion-suspending conveyor leveling method comprises the following steps: respectively converting gravity signals detected in real time into electric signals and transmitting the electric signals to a microprocessor by gravity sensors; analyzing and processing according to a predetermined range and gravity signal values sensed in real time and respectively transmitting different gravity signals to corresponding driving units to control the opening of respective magnetic valves by the microprocessor, wherein pressure air films for supporting conveyer belts, which escape from air outlets of air bags, are changed in real time to ensure that upper side belts are kept on the same horizontal plane in the conveying process. By means of the air cushion-suspending conveyor leveling method disclosed by the invention, the problem that the conveyer belts are unsteady can be solved.

Description

Air Cushion Suspension conveyer leveling method

Technical field

The present invention relates to gas suspension field of mechanical technique, especially a kind of leveling method for Air Cushion Suspension conveyer.

Background technology

Air Cushion Suspension conveyer is the ribbon conveyer with thin air film supporting belt and upper material thereof, a kind of Air Cushion Suspension conveyer as shown in Figure 1 and Figure 2, include the conveyer belt 21 being sleeved on drivewheel 25 and driven pulley 26, between the upper side band 21-1 and lower sideband 21-2 of conveyer belt 21, bracing frame 28 is provided with the air chamber 22 that its air inlet consistent with conveyer belt 21 traffic direction is connected with the gas outlet of air pump 27, described air chamber 22 upper end is provided with the dish groove 22-1 that cross section is matrix, and described dish groove offers multiple little venthole；During work, air pump inputs gases at high pressure to air chamber, the venthole effusion on dish groove of the high pressure gas in air chamber, on top forms one layer of air film supporting belt with certain pressure and top material thereof between band and dish groove, reduce running resistance, improve production efficiency；But this Air Cushion Suspension conveyer also exists, owing to air chamber is long, gas is decayed gradually from the head of air chamber to the pressure of afterbody, therefore, air chamber each position dish groove emergent gas pressure can be variant, so that the pressure of the pressure air film of the supporting belt of each air bag venthole effusion is different, cause the jiggly problem of conveyer belt.

Summary of the invention

The technical problem to be solved is to provide a kind of Air Cushion Suspension conveyer leveling method, and this method can solve the jiggly problem of conveyer belt.

In order to solve the problems referred to above, the technical solution adopted in the present invention is: this Air Cushion Suspension conveyer, include the conveyer belt being sleeved on drivewheel and driven pulley, the air chamber that its air inlet consistent with running direction of conveyor belt is connected it is provided with the gas outlet of air pump between upper side band and the lower sideband of described conveyer belt, described air chamber upper end is provided with the dish groove that cross section is matrix, multiple tactic air bag it is provided with between described dish groove and described upper side band, described each air bag offers multiple gas outlet corresponding to upper side band respectively, the air inlet of described each air bag is connected with air chamber respectively through respective connecting tube, described each connecting tube is provided with electromagnetic valve；On described conveyer belt, it is arranged with multiple gravity sensor along described running direction of conveyor belt order；Described each gravity sensor is connected with the signal input part of microprocessor respectively, and the signal output part of described microprocessor is connected with the control end of corresponding electromagnetic valve respectively through respective driver element；

Its leveling method is:

Each gravity sensor, microprocessor is passed to after respectively the gravitational cue detected in real time being converted to the signal of telecommunication, after microprocessor is analyzed according to the gravitational cue value of predetermined sphere of gravity with sensing in real time, processes, respectively different gravitational cues is passed to corresponding driver element and controls the aperture of respective electromagnetic valve, the pressure air film of the supporting belt of each air bag venthole effusion, in real-time change, makes the upper side band in course of conveying be maintained at same level.

Owing to have employed technique scheme, the present invention compared with prior art has the advantages that

1, owing to being provided with multiple tactic air bag between dish groove and upper side band, and the air inlet place of each air bag is provided with electromagnetic valve；Can pass through to regulate the aperture of each electromagnetism, make the pressure of each inside air bag along with conveyer belt being carried the different of material gravity change in real time, the pressure air film of the supporting belt of air bag venthole effusion is also in real-time change, so that the upper side band in course of conveying is maintained at same level, reach the purpose of steadily conveying.

2, owing to gravity sensor is connected with microprocessor respectively, microprocessor not only volume is little, powerful, also effectively ensure that the reliability of control.

Accompanying drawing explanation

Fig. 1 is the structural representation of existing Air Cushion Suspension conveyer leveling method.

Fig. 2 is that Figure 1A-A locates sectional view.

Fig. 3 is the structural representation of embodiment of the present invention Air Cushion Suspension conveyer.

Fig. 4 is Fig. 3 B-B place sectional view.

Fig. 5 is the control principle block diagram of the embodiment of the present invention.

Detailed description of the invention

Below in conjunction with accompanying drawing embodiment, the invention will be further described:

Fig. 3, Air Cushion Suspension conveyer leveling method shown in Fig. 4, include the conveyer belt 1 being sleeved on drivewheel 5 and driven pulley 6, it is provided with, between the upper side band 1-1 and lower sideband 1-2 of conveyer belt 1, the air chamber 2 being arranged on the first bracing frame 8, air chamber 2 is consistent with conveyer belt 1 traffic direction, its air inlet is connected with the gas outlet of air pump 7, air chamber 2 upper end is provided with the dish groove 2-1 that cross section is matrix, it is provided with multiple along the tactic air bag 5 of conveyer belt 1 traffic direction between dish groove 2-1 and upper side band 1-1, each air bag 5 offers multiple gas outlet corresponding to upper side band respectively, the air inlet 5a of each air bag 5 is connected with air chamber 2 respectively through respective connecting tube, each connecting tube is provided with electromagnetic valve 3；On conveyer belt 1, it is arranged with multiple gravity sensor 4 along conveyer belt 1 traffic direction order；Each gravity sensor 4 is connected with the signal input part of microprocessor respectively, and the signal output part of microprocessor is connected respectively through the control end of respective driver element with corresponding electromagnetic valve 3.As shown in Figure 5, its leveling method is: each gravity sensor, microprocessor is passed to after respectively the gravitational cue detected in real time being converted to the signal of telecommunication, after microprocessor is analyzed according to the gravitational cue value of predetermined sphere of gravity with sensing in real time, processes, respectively different gravitational cues is passed to corresponding driver element and controls the aperture of respective electromagnetic valve；So that the pressure of each inside air bag is along with carrying the different of material gravity to change in real time on conveyer belt, the pressure air film of the supporting belt of air bag venthole effusion is also in real-time change, so that the upper side band in course of conveying is maintained at same level, reach the purpose of steadily conveying.

Claims (1)

1. an Air Cushion Suspension conveyer leveling method, it is characterized in that: this Air Cushion Suspension conveyer, include the conveyer belt being sleeved on drivewheel and driven pulley, the air chamber that its air inlet consistent with running direction of conveyor belt is connected it is provided with the gas outlet of air pump between upper side band and the lower sideband of described conveyer belt, described air chamber upper end is provided with the dish groove that cross section is matrix, multiple tactic air bag it is provided with between described dish groove and described upper side band, described each air bag offers multiple gas outlet corresponding to upper side band respectively, the air inlet of described each air bag is connected with air chamber respectively through respective connecting tube, described each connecting tube is provided with electromagnetic valve；On described conveyer belt, it is arranged with multiple gravity sensor along described running direction of conveyor belt order；Described each gravity sensor is connected with the signal input part of microprocessor respectively, and the signal output part of described microprocessor is connected with the control end of corresponding electromagnetic valve respectively through respective driver element；

Its leveling method is:

Each gravity sensor, microprocessor is passed to after respectively the gravitational cue detected in real time being converted to the signal of telecommunication, after microprocessor is analyzed according to the gravitational cue value of predetermined sphere of gravity with sensing in real time, processes, respectively different gravitational cues is passed to corresponding driver element and controls the aperture of respective electromagnetic valve, the pressure air film of the supporting belt of each air bag venthole effusion, in real-time change, makes the upper side band in course of conveying be maintained at same level.