CN106345950A - Full-automatic molding device and method for processing compounded copper-core-yarn wiring hook - Google Patents

Abstract

The invention discloses a full-automatic molding device and method for processing a compounded copper core yarn wiring hook. The full-automatic molding device is composed of a molding device and a time control device. The molding device comprises an outer cover box, and internally provided with a bearing plate and a bottom plate; an upper molding-sliding-block supporting base, an upper molding block, compressed air pipes, a lower cutter, a right molding block, a lower molding block, a right molding-block supporting base, a lower molding-block supporting base, a feeding air cylinder, a finger clamping air cylinder, a molding bearing block, a first air cylinder, a second air cylinder and a third air cylinder are arranged on the front face of the bearing plate, a first electromagnetic valve, a second electromagnetic valve, a third electromagnetic valve, a fourth electromagnetic valve, a fifth electromagnetic valve, a sixth electromagnetic valve and a fourth air cylinder are arranged on the back face of the bearing plate, and all the parts are connected with the bearing plate through screws and cylindrical pins; the time control device comprises a relay set, display and buttons and a controller. The full-automatic molding device is a full-automatic mechanical-and-electronic-integration wiring hook molding device, operating is easy and accurate, and the uniformity of all the parts is good.

Description

The full-automatic molding devices and methods therefor of processing complex copper core filaments wiring hook

Technical field

The present invention relates to a kind of full-automatic molding devices and methods therefor of processing complex copper core filaments wiring hook.

Technical background

The processing technique of butted line hook part is varied in the market, but the wiring hook that these modes process Often steel wire is thicker, and bending diameter ratio is larger, and dimensional requirement is not also high, for 1 millimeter of left side of product requirement complex copper core diameter The right side, bending internal diameter is the part of 2 times about of steel wire diameter, and existing processing unit (plant) and method are all difficult to meet.

Content of the invention

The invention aims to overcoming problems of the prior art, thus providing a kind of processing complex copper core filaments The full-automatic molding devices and methods therefor of wiring hook.

In order to achieve the above object, the present invention adopts the following technical scheme that

The full-automatic molding device of processing complex copper core filaments wiring hook, by shaped device and two part groups of time-controlling arrangement Become；Shaped device includes outer housing case 14, is provided with support plate 15 and base plate 9 in it, is provided with molding in the front of support plate 15 and slides Block bearing 1, upper forming blocks 2, compressed air hose 3, lower cutter 4, right forming blocks 5, lower forming blocks 6, right forming blocks bearing 7, lower one-tenth Type block bearing 8, feeding cylinder 11, fingerhold cylinder 12, molding rest pad 13, the first cylinder 22, the second cylinder 23 and the 3rd Cylinder 24, is provided with the first electromagnetic valve 16, the second electromagnetic valve 17, the 3rd electromagnetic valve 18, the 4th electromagnetic valve in the reverse side of support plate 15 19th, the 5th electromagnetic valve 20, the 6th electromagnetic valve 21 and the 4th cylinder 25, above-mentioned each part passes through screw and straight pin and support plate 15 It is connected；Time-controlling arrangement includes relay group 26, display and button 27 and controller 28, and described relay group 26 is continued by six Electrical equipment forms.

The method of processing complex copper core filaments wiring hook:

The first step: the full-automatic molding device of described processing complex copper core filaments wiring hook is placed on a workbench, connects 220v alternating current power supply and compressed air line, open compressed air valve and time controller power knob, dry running 1～2 minute, After checking normal operation, press the time-out power knob in display and button 19, allow full-automatic molding device to stop；By complex copper Core filaments 10 insert lower cutter 4 after passing through feeding cylinder 11 and fingerhold cylinder 12, and then pressing suspends power knob, power supply and Compressed air is connected；Temporal logic program in time-controlling arrangement starts first time period, opens within first time period First relay in motor type relay group 26, makes first relay closure connect the second electromagnetic valve 17, the second electromagnetic valve 17 Open rear compressed air and complex copper core filaments 10 are clamped by fingerhold cylinder 12 action, so far the work of first time period is complete Become；

Second step: the temporal logic program in time-controlling arrangement starts second time period, started within second time period Second relay in relay group 26, makes second relay closure connect the first electromagnetic valve 16, first electromagnetism valve actuation Make feeding cylinder 11 action, complete self-feeding, the so far work of second time period completes；

3rd step: the temporal logic program in time-controlling arrangement starts the 3rd time period, started within the 3rd time period The 3rd relay in relay group 26, makes the 3rd relay closure connect the 3rd electromagnetic valve 18, the 3rd electromagnetic valve 18 moves Make the first cylinder 22 drive upper forming blocks 2 action, complete cut-out and bending first work step of complex copper core filaments 10, so far the 3rd The work of individual time period completes；

4th step: the temporal logic program in time-controlling arrangement starts the 4th time period, started within the 4th time period The 4th relay in relay group 26, makes the 4th relay closure connect the 4th electromagnetic valve 19, the 4th electromagnetic valve 19 moves The 3rd cylinder 24 is made to drive right forming blocks 5 to be curved the second work step, the so far work of the 4th time period completes；

5th step: the temporal logic program in time-controlling arrangement starts the 5th time period, started within the 5th time period The 5th relay in relay group 26, makes the 5th relay closure connect the 6th electromagnetic valve 21, the 6th electromagnetic valve 21 moves Make the second cylinder 23 drive lower forming blocks 6 to be corrected work step, complete the full-automatic cut-out bending of wiring hook, so far the 5th The work of individual time period completes；

6th step: the temporal logic program in time-controlling arrangement starts the 6th time period, started within the 6th time period The 6th relay in relay group 26, makes the 6th relay closure connect the 5th electromagnetic valve 20, the 5th electromagnetic valve 20 moves Making, thus driving molding rest pad 13 to draw off the wiring hook part machining, so far completing fabrication cycles.

Beneficial effect using technique scheme is:

The present invention is using programme controlled Full-automatic machine electrical integrated wiring hook former, simple to operate, runs accurately, zero Part concordance good it is adaptable to the fully-automatic production of miniature precision wiring hook, there is certain practical value.

Brief description

Fig. 1 is the structural representation of shaped device in the present invention；

Fig. 2 is the top view of Fig. 1；

Fig. 3 is the left view of Fig. 1；

Fig. 4 is the structural representation of time-controlling arrangement in the present invention；

Fig. 5 is present invention wiring hook design of part schematic diagram to be processed；

Become under in figure: 1- upper forming slide bearing, the upper forming blocks of 2-, 3- compressed air hose, 4- lower cutter, the right forming blocks of 5-, 6- Forming blocks bearing, 9- base plate, 10- complex copper core filaments, 11- feeding cylinder, 12- finger clamp under type block, 7- right forming blocks bearing, 8- Hold cylinder, 13- molding rest pad, 14- outer housing case, 15- support plate, 16- first electromagnetic valve, 17- second electromagnetic valve, 18- the 3rd Electromagnetic valve, 19- the 4th electromagnetic valve, 20- the 5th electromagnetic valve, 21- the 6th electromagnetic valve, 22- first cylinder, 23- second cylinder, 24- 3rd cylinder, 25- the 4th cylinder, 26- relay group, 27- shows and button, 28- controller.

Specific embodiment

As shown in Figure 1,2 and 3, process the full-automatic molding device of complex copper core filaments wiring hook, by shaped device and time Two parts of control device form；Shaped device includes outer housing case 14, is provided with support plate 15 and base plate 9, in support plate 15 in it Front be provided with forming slide bearing 1, upper forming blocks 2, compressed air hose 3, lower cutter 4, right forming blocks 5, lower forming blocks 6, Right forming blocks bearing 7, lower forming blocks bearing 8, feeding cylinder 11, fingerhold cylinder 12, molding rest pad 13, the first cylinder 22nd, the second cylinder 23 and the 3rd cylinder 24, is provided with the first electromagnetic valve 16, the second electromagnetic valve the 17, the 3rd in the reverse side of support plate 15 Electromagnetic valve 18, the 4th electromagnetic valve 19, the 5th electromagnetic valve 20, the 6th electromagnetic valve 21 and the 4th cylinder 25, above-mentioned each part passes through spiral shell Nail is connected with support plate 15 with straight pin.

As shown in figure 4, time-controlling arrangement includes relay group 26, display and button 27 and controller 28, described relay Device group 26 is made up of six relays.

The method of processing complex copper core filaments wiring hook:

The first step: the full-automatic molding device of described processing complex copper core filaments wiring hook is placed on a workbench, connects 220v alternating current power supply and compressed air line, open compressed air valve and time controller power knob, dry running 1～2 minute, After checking normal operation, press the time-out power knob in display and button 19, allow full-automatic molding device to stop；By complex copper Core filaments 10 insert lower cutter 4 after passing through feeding cylinder 11 and fingerhold cylinder 12, and then pressing suspends power knob, power supply and Compressed air is connected；Temporal logic program in time-controlling arrangement starts first time period, opens within first time period First relay in motor type relay group 26, makes first relay closure connect the second electromagnetic valve 17, the second electromagnetic valve 17 Open rear compressed air and complex copper core filaments 10 are clamped by fingerhold cylinder 12 action, so far the work of first time period is complete Become；

Second step: the temporal logic program in time-controlling arrangement starts second time period, started within second time period Second relay in relay group 26, makes second relay closure connect the first electromagnetic valve 16, first electromagnetism valve actuation Make feeding cylinder 11 action, complete self-feeding, the so far work of second time period completes；

3rd step: the temporal logic program in time-controlling arrangement starts the 3rd time period, started within the 3rd time period The 3rd relay in relay group 26, makes the 3rd relay closure connect the 3rd electromagnetic valve 18, the 3rd electromagnetic valve 18 moves Make the first cylinder 22 drive upper forming blocks 2 action, complete cut-out and bending first work step of complex copper core filaments 10, so far the 3rd The work of individual time period completes；

4th step: the temporal logic program in time-controlling arrangement starts the 4th time period, started within the 4th time period The 4th relay in relay group 26, makes the 4th relay closure connect the 4th electromagnetic valve 19, the 4th electromagnetic valve 19 moves The 3rd cylinder 24 is made to drive right forming blocks 5 to be curved the second work step, the so far work of the 4th time period completes；

5th step: the temporal logic program in time-controlling arrangement starts the 5th time period, started within the 5th time period The 5th relay in relay group 26, makes the 5th relay closure connect the 6th electromagnetic valve 21, the 6th electromagnetic valve 21 moves Make the second cylinder 23 drive lower forming blocks 6 to be corrected work step, complete the full-automatic cut-out bending of wiring hook, so far the 5th The work of individual time period completes；

6th step: the temporal logic program in time-controlling arrangement starts the 6th time period, started within the 6th time period The 6th relay in relay group 26, makes the 6th relay closure connect the 5th electromagnetic valve 20, the 5th electromagnetic valve 20 moves Making, thus driving molding rest pad 13 to draw off the wiring hook part machining, so far completing fabrication cycles.

The effect of the present invention is, by shaped device, linear blank is automatically finished cut-out and brake forming operation, Feature is to control the priority action of forming blocks using temporal sequence, completes each bending work step of wiring hook part, makes complex copper Core filaments brake forming, the wiring hook that this device processes, geomery concordance is good, and production efficiency is high, meets product requirement.

Claims (2)

1. process the full-automatic molding device of complex copper core filaments wiring hook, it is characterized in that: it is by shaped device and time control dress Put two parts to form；Shaped device includes outer housing case (14), is provided with support plate (15) and base plate (9), in support plate in it (15) front is provided with forming slide bearing (1), upper forming blocks (2), compressed air hose (3), lower cutter (4), right forming blocks (5), lower forming blocks (6), right forming blocks bearing (7), lower forming blocks bearing (8), feeding cylinder (11), fingerhold cylinder (12), molding rest pad (13), the first cylinder (22), the second cylinder (23) and the 3rd cylinder (24), anti-in support plate (15) Face is provided with the first electromagnetic valve (16), the second electromagnetic valve (17), the 3rd electromagnetic valve (18), the 4th electromagnetic valve (19), the 5th electromagnetic valve (20), the 6th electromagnetic valve (21) and the 4th cylinder (25), above-mentioned each part is connected with support plate (15) with straight pin by screw； Time-controlling arrangement includes relay group (26), display and button (27) and controller (28), and described relay group (26) is by six Individual relay composition.

2. the method processing complex copper core filaments wiring hook, is characterized in that, the method comprises the following steps:

The first step: the full-automatic molding device of described processing complex copper core filaments wiring hook is placed on a workbench, connects 220v alternating current power supply and compressed air line, open compressed air valve and time controller power knob, dry running 1～2 minute, After checking normal operation, press the time-out power knob in display and button (19), allow full-automatic molding device to stop；To be combined Copper core silk (10) passes through feeding cylinder (11) and fingerhold cylinder (12) inserts lower cutter (4) afterwards, and then pressing suspends power supply Button, power supply is connected with compressed air；Temporal logic program in time-controlling arrangement starts first time period, at first First relay in starting relay group (26) in time period, makes first relay closure connect the second electromagnetic valve (17), the second electromagnetic valve (17) is opened rear compressed air and is clamped complex copper core filaments (10) by fingerhold cylinder (12) action, So far the work of first time period completes；

Second step: the temporal logic program in time-controlling arrangement starts second time period, started within second time period Second relay in relay group (26), makes second relay closure connect the first electromagnetic valve (16), first electromagnetism Valve events make feeding cylinder (11) action, complete self-feeding, and the so far work of second time period completes；

3rd step: the temporal logic program in time-controlling arrangement starts the 3rd time period, started within the 3rd time period The 3rd relay in relay group (26), makes the 3rd relay closure connect the 3rd electromagnetic valve (18), the 3rd electromagnetic valve (18) action makes forming blocks (2) action in the first cylinder (22) drive, completes cut-out and the bending first of complex copper core filaments (10) Work step, the so far work of the 3rd time period completes；

4th step: the temporal logic program in time-controlling arrangement starts the 4th time period, started within the 4th time period The 4th relay in relay group (26), makes the 4th relay closure connect the 4th electromagnetic valve (19), the 4th electromagnetic valve (19) action makes the 3rd cylinder (24) drive right forming blocks (5) to be curved the second work step, the so far work of the 4th time period Complete；

5th step: the temporal logic program in time-controlling arrangement starts the 5th time period, started within the 5th time period The 5th relay in relay group (26), makes the 5th relay closure connect the 6th electromagnetic valve (21), the 6th electromagnetic valve (21) action makes the second cylinder (23) drive lower forming blocks (6) to be corrected work step, and the full-automatic cut-out completing wiring hook is curved Song, the so far work of the 5th time period completes；

6th step: the temporal logic program in time-controlling arrangement starts the 6th time period, started within the 6th time period The 6th relay in relay group (26), makes the 6th relay closure connect the 5th electromagnetic valve (20), the 5th electromagnetic valve (20) action, thus driving molding rest pad (13) to draw off the wiring hook part machining, so far completes fabrication cycles.