CN204076146U - Silk fabric pad charging crane - Google Patents

Abstract

The utility model provides a kind of silk fabric pad charging crane, and it mainly comprises guide pillar, undershoot, upper punch, upper increased stroke-adjustable gas cylinder, lower increased stroke-adjustable gas cylinder, mould cutting die, punch die, workbench; The installation of thin bedding and padding in the aluminum pipe shell of high section delay element is completed by the operation of upper increased stroke-adjustable gas cylinder, lower increased stroke-adjustable gas cylinder.Its effect is: 1, can mass and the thin bedding and padding of scale install in the aluminum pipe shell of high section delay element; 2, device has the features such as automaticity is high, control accuracy is high, cost is low, security performance is good, easy and simple to handle, energy-conserving and environment-protective.

Description

Silk fabric pad charging crane

Technical field: the present invention relates to a kind of erecting device in the production procedure of civil explosive industry delay element, particularly a kind ofly can be installed to the thin planchet of thin for silks and satins planchet or other material the silk fabric pad charging crane gone in high section delay element shell.

Background technology: the ignition ability of existing high section delay element is more weak, can not reliable detonating primer.In order to improve the ignition ability of high section delay element, a certain amount of ignition charge will be installed additional in the aluminium tube shell bottom of high section delay element, but aluminum pipe shell bottom part aperture diameter is comparatively large, is easy to when assembling produce and leaks medicine; For preventing ignition charge from spilling from aluminium tube shell bottom, then need to place a thin planchet in aluminium tube shell bottom.So will improve the ignition ability of high section delay element, this just relates to two problems, one is to solve thin pad cutting stock problems, and two will solve the problem how thin pad being installed to aluminium tube shell bottom and going; The silk fabric pad blanking machine simultaneously applied for the application has solved thin pad cutting stock problems, thus the remaining problem how thin pad being installed to aluminium tube shell bottom and going, and will dock with the moulds of industrial equipment of high section delay element production line.

Summary of the invention: the object of the invention is to; for in the existing technical scheme by improving high section delay element ignition ability chance and how thin pad is installed to the problem that aluminium tube shell bottom goes; and propose a kind of can docking with the moulds of industrial equipment of high section delay element production line, and the silk fabric pad charging crane that production efficiency is high, security is good, be applicable in enormous quantities, the aluminium tube shell bottom at high section delay element of large-scale production installs the thin planchet of silks and satins or other sheeting.

The object of the invention can be realized by following technical proposals, a kind of silk fabric pad charging crane, it is characterized in that, it mainly comprises top board, base plate, guide pillar, undershoot, upper punch, punch die fixed head, upper increased stroke-adjustable gas cylinder, lower increased stroke-adjustable gas cylinder, mould cutting die, punch die, workbench, top board and base plate are separately fixed at the top and bottom of guide pillar, punch die fixed head is fixed on the stage casing of guide pillar, upper punch is by the guide pillar of the sliding plate sleeve on it above punch die fixed head, undershoot is by the guide pillar of the sliding plate sleeve on it below punch die fixed head, upper increased stroke-adjustable gas cylinder is fixed on top board and with the slide plate of upper punch and is in transmission connection, lower increased stroke-adjustable gas cylinder is fixed on base plate and with the slide plate of undershoot and is in transmission connection, punch die is fixed on punch die fixed head, mould cutting die is fixed on punch die fixed head by bracing frame, be positioned at above punch die, base plate is fixed on workbench upper end.

Mould cutting die is made up of upper mounted plate, cutting ring, backing plate, base plate; It is an entirety that fixed head, backing plate, base plate stack gradually, the hole equal with modulus is provided with above them, the aperture in hole stage casing is greater than the aperture of epimere and hypomere, an annular boss is provided with in the middle part of cutting ring outer wall, cutting ring is located in hole, on cutting ring, the external diameter of annular boss is less than the internal diameter in hole stage casing but is greater than the aperture of epimere and hypomere, and on cutting ring, the thickness of annular boss is less than the height in hole stage casing.

Punch die is made up of template and base plate, template is provided with the hole placing high section delay element aluminum pipe shell, and high section delay element aluminum pipe shell is placed in hole, and base plate is provided with the hole corresponding with template, the diameter of base plate hole is identical with the diameter of hole bottom aluminum pipe shell, is less than the diameter of form plate hole.

For making plant automation, be provided with programmable logic controller (PLC) in this device, programmable logic controller (PLC) is electrically connected with reversing solenoid valve and control button.

Effect of the present invention is: the ignition ability 1, for improving high section delay element provides technology and ensures, this is, this device not only can by silk fabric pad blanking machine under thin bedding and padding install in the aluminum pipe shell of high section delay element, and can dock with existing high section delay element production line moulds of industrial equipment and realize mass that high section delay element produces and scale; 2, this device has the features such as automaticity is high, control accuracy is high, cost is low, security performance is good, easy and simple to handle, energy-conserving and environment-protective.

Below in conjunction with drawings and Examples, the present invention is set forth further:

Accompanying drawing illustrates:

Accompanying drawing 1 is structural representation of the present invention;

Accompanying drawing 2 is the structure for amplifying schematic diagram at A place in accompanying drawing 1;

Accompanying drawing 3 is the main TV structure schematic diagram (broken section) of mould cutting die in the present invention;

Accompanying drawing 4 is the plan structure schematic diagram of mould cutting die in the present invention;

Accompanying drawing 5 is the structure for amplifying schematic diagram at B place in accompanying drawing 3;

Accompanying drawing 6 is the lateral cross section structural representation of punch die in the present invention;

Accompanying drawing 7 is the simple circuit structure schematic diagram in the present invention;

Accompanying drawing 8 is the gas circuit structure schematic diagram of upper and lower increased stroke-adjustable gas cylinder in the present invention.

Detailed description of the invention:

See accompanying drawing 1,2,3,4,5,6,7,8, a kind of silk fabric pad charging crane, it mainly comprises top board 1, base plate 2, guide pillar 3, undershoot 4, upper punch 5, punch die fixed head 6, mould cutting die 7, punch die 8, upper increased stroke-adjustable gas cylinder 9, lower increased stroke-adjustable gas cylinder 10, workbench 11, top board 1 and base plate 2 are separately fixed at the top and bottom of guide pillar 3, punch die fixed head 8 is fixed on the stage casing of guide pillar 3, upper punch 5 is enclosed within the guide pillar 3 above punch die fixed head 6 by the slide plate 51 on it, undershoot 4 is enclosed within the guide pillar 3 below punch die fixed head 6 by the slide plate 41 on it, upper increased stroke-adjustable gas cylinder 9 is fixed on top board 1 and with the slide plate 51 of upper punch 5 and is in transmission connection, lower increased stroke-adjustable gas cylinder 10 is fixed on a base plate 2 and is in transmission connection with the slide plate 41 of undershoot 4, punch die 8 is fixed on punch die fixed head 6, mould cutting die 7 is fixed on punch die fixed head 6 by bracing frame 12, be positioned at above punch die 8, base plate 2 is fixed on workbench 11 upper end.Mould cutting die 7 is made up of upper mounted plate 71, cutting ring 72, backing plate 73, base plate 74; It is an entirety that fixed head 71, backing plate 73, base plate 74 stack gradually, the hole equal with modulus is provided with above them, the aperture in hole stage casing is greater than the aperture of epimere and hypomere, an annular boss is provided with in the middle part of cutting ring 72 outer wall, cutting ring 72 is located in hole, on cutting ring 72, the external diameter of annular boss is less than the internal diameter in hole stage casing but is greater than the aperture of epimere and hypomere, on cutting ring 72, the thickness of annular boss is less than the height in hole stage casing, this makes cutting ring 72 when operation, there is individual buffer strip, be beneficial to mould cutting die 7 entirety to the cutting of thin pad.

Punch die 8 is made up of template 81 and base plate 82, and template 8 is provided with the hole placing high section delay element aluminum pipe shell 83, and high section delay element aluminum pipe shell 83 is placed in hole; Base plate 82 is provided with the hole corresponding with template 81, and the diameter of base plate 82 hole is identical with the diameter of hole bottom aluminum pipe shell 83, is less than the diameter of template 81 hole.

For making plant automation, programmable logic controller (PLC) 13 is provided with in this device, programmable logic controller (PLC) 13 respectively with lower increased stroke-adjustable gas cylinder 10 piston rod rising reversing solenoid valve coil 14, lower increased stroke-adjustable gas cylinder 10 piston rod decline reversing solenoid valve coil 15, upper increased stroke-adjustable gas cylinder 9 piston rod rising reversing solenoid valve coil 16, upper increased stroke-adjustable gas cylinder 9 piston rod decline reversing solenoid valve coil 17, start button 18, stop button 19, SR 20, upper increased stroke-adjustable gas cylinder 9 piston rod rises the magnetic switch 21 that puts in place, upper increased stroke-adjustable gas cylinder 9 piston rod declines the magnetic switch 22 that puts in place, lower increased stroke-adjustable gas cylinder 10 piston rod rises the magnetic switch 23 that puts in place, the decline magnetic switch 24 that puts in place of lower increased stroke-adjustable gas cylinder 10 piston rod is electrically connected.Reversing solenoid valve coil 14 and the corresponding two electric control electromagnetic reversal valves of reversing solenoid valve coil 15 are located in the gas circuit of lower increased stroke-adjustable gas cylinder 10, and reversing solenoid valve coil 16 and the corresponding two electric control electromagnetic reversal valves of reversing solenoid valve coil 17 are located in the gas circuit of increased stroke-adjustable gas cylinder 9.Wherein start button 18 meets programmable logic controller (PLC) 13 input I0.0; Stop button 19 meets programmable logic controller (PLC) 13 input I0.1; SR 20 meets programmable logic controller (PLC) 13 input I0.2; The rise magnetic switch 21 that puts in place of upper increased stroke-adjustable gas cylinder 9 piston rod meets programmable logic controller (PLC) 13 input I0.3; The decline magnetic switch 22 that puts in place of upper increased stroke-adjustable gas cylinder 9 piston rod meets programmable logic controller (PLC) 13 input I0.4; The rise magnetic switch 23 that puts in place of lower increased stroke-adjustable gas cylinder 10 piston rod meets programmable logic controller (PLC) 13 input I0.5; The decline magnetic switch 24 that puts in place of lower increased stroke-adjustable gas cylinder 10 piston rod meets programmable logic controller (PLC) 13 input I0.6; Upper increased stroke-adjustable gas cylinder 9 piston rod rising reversing solenoid valve coil 16 meets programmable logic controller (PLC) 13 output Q0.0; Upper increased stroke-adjustable gas cylinder 9 piston rod decline reversing solenoid valve coil 17 meets programmable logic controller (PLC) 13 output Q0.1; Lower increased stroke-adjustable gas cylinder 10 piston rod rising reversing solenoid valve coil 14 meets programmable logic controller (PLC) 13 output Q0.2; Lower increased stroke-adjustable gas cylinder 10 piston rod decline reversing solenoid valve coil 15 meets programmable logic controller (PLC) 13 output Q0.3.

Programmable logic controller (PLC) 13 for the program of this plant running is:

Work flow of the present invention is: equipment initial state is in home position, after pressing start button 18, equipment starts to start, the commutation solenoid 14 controlling lower increased stroke-adjustable gas cylinder 10 piston rod rising obtains electric, lower increased stroke-adjustable gas cylinder 10 piston rod starts to rise, instantly after the magnetic switch 23 on increased stroke-adjustable gas cylinder 10 senses that the rising of lower increased stroke-adjustable gas cylinder 10 piston rod puts in place, the commutation solenoid 17 that in control, increased stroke-adjustable gas cylinder 9 piston rod declines obtains electric, upper increased stroke-adjustable gas cylinder 9 piston rod starts to decline, after 0.4 second, the reversal valve solenoid 15 controlling lower increased stroke-adjustable gas cylinder 10 piston rod decline obtains electric, simultaneously, control reversal valve solenoid 14 dead electricity that lower increased stroke-adjustable gas cylinder 10 piston rod rises, now go up increased stroke-adjustable gas cylinder 9 piston rod and lower increased stroke-adjustable gas cylinder 10 piston rod declines simultaneously, lower increased stroke-adjustable gas cylinder 10 piston rod declines and returns original position.After the magnetic switch 22 on upper increased stroke-adjustable gas cylinder 9 senses that piston rod decline puts in place, the reversal valve solenoid 16 that in control, increased stroke-adjustable gas cylinder 9 piston rod rises obtains electric, control reversal valve solenoid 17 dead electricity that upper increased stroke-adjustable gas cylinder 9 piston rod declines, upper increased stroke-adjustable gas cylinder 9 piston rod rises and returns original position simultaneously.When the magnetic switch 21,24 of upper increased stroke-adjustable gas cylinder 9, lower increased stroke-adjustable gas cylinder 10 all receives after piston rod returns signals in situ, namely whole working cycles terminates.

Claims (4)

1. a silk fabric pad charging crane, is characterized in that, it mainly comprises top board, base plate, guide pillar, undershoot, upper punch, punch die fixed head, upper increased stroke-adjustable gas cylinder, lower increased stroke-adjustable gas cylinder, mould cutting die, punch die, workbench, top board and base plate are separately fixed at the top and bottom of guide pillar, punch die fixed head is fixed on the stage casing of guide pillar, upper punch is by the guide pillar of the sliding plate sleeve on it above punch die fixed head, undershoot is by the guide pillar of the sliding plate sleeve on it below punch die fixed head, upper increased stroke-adjustable gas cylinder is fixed on top board and with the slide plate of upper punch and is in transmission connection, lower increased stroke-adjustable gas cylinder is fixed on base plate and with the slide plate of undershoot and is in transmission connection, punch die is fixed on punch die fixed head, mould cutting die is fixed on punch die fixed head by bracing frame, be positioned at above punch die, base plate is fixed on workbench upper end.

2., by silk fabric pad charging crane according to claim 1, it is characterized in that, mould cutting die is made up of upper mounted plate, cutting ring, backing plate, base plate; It is an entirety that fixed head, backing plate, base plate stack gradually, the hole equal with modulus is provided with above them, the aperture in hole stage casing is greater than the aperture of epimere and hypomere, an annular boss is provided with in the middle part of cutting ring outer wall, cutting ring is located in hole, on cutting ring, the external diameter of annular boss is less than the internal diameter in hole stage casing but is greater than the aperture of epimere and hypomere, and on cutting ring, the thickness of annular boss is less than the height in hole stage casing.

3. by silk fabric pad charging crane according to claim 1, it is characterized in that, punch die is made up of template and base plate, template is provided with the hole placing high section delay element aluminum pipe shell, high section delay element aluminum pipe shell is placed in hole, base plate is provided with the hole corresponding with template, and the diameter of base plate hole is identical with the diameter of hole bottom aluminum pipe shell, is less than the diameter of form plate hole.

4., by claim 1 or the silk fabric pad charging crane described in 2 or 3, it is characterized in that, be provided with programmable logic controller (PLC) in this device, programmable logic controller (PLC) is electrically connected with reversing solenoid valve and control button.