CN203833209U - Computer keyboard silica gel particle vibration arraying machine - Google Patents

Abstract

The utility model discloses a computer keyboard silica gel particle vibration arraying machine which comprises a material bin at the top end, a material returning bin separated from the material bin through a movable door, a control panel at the middle portion, a blanking device, a swinging cavity arranged at the lower end of the blanking device, an eccentric vibration mechanism, an upper layer conveying belt line, a bottom layer conveying belt line on the lower portion and a straight line guiding track pair. The eccentric vibration mechanism comprises a vibration screen and an eccentric shaft. The vibration screen is arranged at the lower end of the swinging cavity. An eccentric shaft and the swinging cavity are connected through a floating connector. The swinging cavity is arranged on the straight line guiding track pair. According to the computer keyboard silica gel particle vibration arraying machine, under the unattended situation, computer keyboard silica gel particles can be arrayed on a jig disc, an automatic feeding device and an automatic material returning device are arranged, equipment can be connected with an assembly line in an abutting mode naturally, full-automatic flowing and recycling of the jig disc can be achieved, production efficiency is high, arraying time is short, noise is low, manual intervention is of no need, and a large amount of labor cost can be saved for a factory.

Description

A kind of computor-keyboard silicon particle vibration arrangement machine

Technical field

The utility model relates to a kind of vibration and arranges machine, is specifically related to a kind of computor-keyboard silicon particle vibration arrangement machine.

Background technology

Computor-keyboard silicon particle is called for short RUB, is a kind of elastic silica gel particle below computor-keyboard pushbotton, is bowl-shape, and elp button has a kind of good feel when resetting and keeping finger to beat, generally on keyboard according to button size or function difference, have 2 to 3 kinds of silicon particles.The technique of computor-keyboard silicon particle being vibrated in the tool dish hole corresponding with keyboard key-position in the market has two kinds: a kind of is pure craft, first manually some computor-keyboards silicon particle is sprinkling upon on tool dish, then manually in a stainless steel framework, by certain rhythm, beat tool dish, under the effect that computor-keyboard silicon particle particle beats in vibration, slowly fall in tool dish hole; Another is semi-hand, and from a kind of method is different above, the vibration of tool dish adopts magnetic strength vibrator to cause the vibration of tool dish, and this is the full phase oscillation mode that a kind of frequency ratio is higher, and noise is larger, stronger to operator's sense of discomfort.These two kinds of methods are different according to operator's skill of labour arrangement time, and the on-the-spot vibrating noise in workshop is large, and hand labor intensity is high.

Utility model content

For addressing the above problem, the purpose of this utility model is to provide a kind of computor-keyboard silicon particle vibration arrangement machine, is equipped with auto feed and automatic material return device, naturally docks with conveyor line, and the full automaticity of realizing tool dish flows and reclaims.

For realizing above-mentioned technical purpose, reach above-mentioned technique effect, the utility model is achieved through the following technical solutions:

A kind of computor-keyboard silicon particle vibration arrangement machine, the feed back storehouse that comprises the feed bin on top, separates by dodge gate with described feed bin, control panel, the doffer at middle part, be arranged on described doffer lower end wave chamber, eccentric vibration mechanism, upper strata belt conveyor line, bottom belt conveyor line and the line slideway auxiliary of bottom;

Described eccentric vibration mechanism involving vibrations sieve and eccentric shaft, wave lower end, chamber described in described vibrating grizzly is arranged on, described eccentric shaft with described in wave between chamber and be connected by floating junction, described in wave chamber and be arranged on described line slideway auxiliary.

Further, described eccentric vibration mechanism also comprises the pen cylinder of the described movable sealing plate reciprocating action of stepping motor, movable sealing plate and control, and described eccentric shaft is fixed on described stepping motor below, waves the charge door end in chamber described in described movable sealing plate is arranged on.

Further, described feed back storehouse comprises with described waves feed pipe interface, filtering net orifice plate and the exhaust column interface that chamber left end discharge gate is connected, dodge gate cylinder is arranged on top, described feed back storehouse, described dodge gate is connected with described feed back storehouse by hinge, and described feed back storehouse is arranged on tops on described vibration arrangement machine by mounting base.

Further, described doffer comprises the knurled shaft of a pair of relative antiport and 3 gear of transferring rotational motion successively.

Further, the negative press bond of described exhaust column interface and vortex air pump.

Further, described mounting base is transparent PC plate.

The beneficial effects of the utility model are:

1, the utility model can be aligned to computor-keyboard silicon particle particle on tool dish in unattended situation, be equipped with auto feed and automatic material return device, equipment can dock naturally with conveyor line, the full automaticity of realizing tool dish flows and reclaims, production efficiency is high, and the position, hole that need to mend computor-keyboard silicon particle is compared manual alignment mode and will be lacked;

2, the utility model can be realized the production of computor-keyboard silicon particle Full-automatic arranging, and the arrangement time, short noise was little, without manual intervention, can save a large amount of costs of labor for factory.

Above-mentioned explanation is only the general introduction of technical solutions of the utility model, in order to better understand technological means of the present utility model, and can be implemented according to the content of specification sheets, below with preferred embodiment of the present utility model and coordinate accompanying drawing to be described in detail as follows.The specific embodiment of the present utility model is provided in detail by following examples and accompanying drawing thereof.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the part sectional view of Fig. 1;

Fig. 3 is eccentric vibration mechanism structural representation of the present utility model;

Fig. 4 is feed back chamber structure schematic diagram of the present utility model;

Fig. 5 is clout the automatic recovery schematic diagram of the present utility model.

Number in the figure explanation:

1, feed bin, 2, feed back storehouse, 3, control panel, 4, upper strata belt conveyor line, 5, bottom belt conveyor line, 6, doffer, 7, wave chamber, 8, vibrating grizzly, 9, eccentric vibration mechanism, 10, eccentric shaft, 11, stepping motor, 12, movable sealing plate, 13, pen cylinder, 14, feed pipe interface, 15, filtering net orifice plate, 16, exhaust column interface, 17, floating junction, 18, dodge gate cylinder, 19, dodge gate, 20, mounting base, 21, line slideway auxiliary, 22, feed back pipeline, 23, absorption base plate, 24, the first vortex air pump, 25, the second vortex air pump, 26, the first negative pressure wind pipeline, 27, the second negative pressure wind pipeline, 28, positive pressure air pipe.

The specific embodiment

Below with reference to the accompanying drawings and in conjunction with the embodiments, describe the utility model in detail.

Shown in Fig. 1, Fig. 2, a kind of computor-keyboard silicon particle vibration arrangement machine, the feed back storehouse 2 that comprises the feed bin 1 on top, separates by dodge gate 19 with described feed bin 1, control panel 3, the doffer 6 at middle part, be arranged on described doffer 6 lower ends wave chamber 7, eccentric vibration mechanism 9, upper strata belt conveyor line 4, bottom belt conveyor line 5 and the line slideway auxiliary 21 of bottom;

Shown in Figure 3, described eccentric vibration mechanism 9 involving vibrations sieve 8 and eccentric shafts 10, described in described vibrating grizzly 8 is arranged on, wave 7 lower ends, chamber, described eccentric shaft 10 with described in wave between chamber 7 and be connected by floating junction 17, described in wave chamber 7 and be arranged on described line slideway auxiliary 21.

Further, described eccentric vibration mechanism 9 also comprises stepping motor 11, movable sealing plate 12 and controls the pen cylinder 13 of described movable sealing plate 12 reciprocating actions, described eccentric shaft 10 is fixed on described stepping motor 11 belows, waves the charge door end in chamber 7 described in described movable sealing plate 12 is arranged on.

Shown in Figure 4, further, described feed back storehouse 2 comprises with described waves feed pipe interface 14, filtering net orifice plate 15 and the exhaust column interface 16 that chamber 7 left end discharge gates are connected, dodge gate cylinder 18 is arranged on 2 tops, described feed back storehouse, described dodge gate 19 is connected with described feed back storehouse 2 by hinge, and described feed back storehouse 2 is arranged on tops on described vibration arrangement machine by mounting base 20.

Further, described doffer 6 comprises the knurled shaft of a pair of relative antiport and 3 gear of transferring rotational motion successively.

Further, described exhaust column interface 16 and the negative press bond of vortex air pump.

Further, described mounting base 20 is transparent PC plate.

Each component function is as follows:

Feed back storehouse 2: utilize mediation air pump negative pressure to be recovered in gas-tight silo waving computor-keyboard silicon particle unnecessary in 7 bodies of chamber.Between feed back storehouse 2 and feed bin 1, have cylinder to control dodge gate 19 and separate, cylinder backs down dodge gate 19, and the interior computor-keyboard silicon particle in feed back storehouse 2 falls into feed bin 1 and recycles; The negative pressure cabin that dodge gate 19 is closed feed back storehouse 2 and become a sealing will wave the interior computor-keyboard silicon particle in chamber 7 and draw by flexible pipe.

Control panel 3: with the human-computer interaction interface of touch-screen and some buttons.

Upper strata belt conveyor line 4: tool dish is transported to and waves 7 positions, chamber, driven by buncher.

Bottom belt conveyor line 5: by defeated vibration arrangement machine bottom or the jacking system place of being oppositely transmitted back to of tool dish, driven by buncher.

Doffer 6: utilize a pair of relative antiport knurled shaft that computor-keyboard silicon particle is spread to waving in chamber 7 of below from feed bin 1, turned round by step motor control, 3 gears are transferring rotational motion successively.

Wave the summary of 7: one, chamber than long any the poted assemblies of keyboard, the corresponding doffer 6 in top has long and narrow blanking port, blanking port is controlled a movable door by a cylinder, wave chamber 7 intralamellar parts and empty left-hand thread on vibrating grizzly 8, form an airtight cavity, computor-keyboard silicon particle within it portion is done irregular oscillation.Wave chamber 7 and be arranged on a pair of line slideway auxiliary 21, can do back and forth horizontal straight-line oscillation.

Vibrating grizzly 8: hole plate, Kong Weiyu keyboard key-position is corresponding, is fixed on and waves 7 belows, chamber.

Eccentric vibration mechanism 9: drive Timing Belts to drive an eccentric shaft 10 to rotate by stepping motor 11, eccentric shaft 10 is connected by a floating junction 17 with waving between chamber 7, rotatablely moving of eccentric shaft 10 is converted into the horizontal straight-line oscillation of waving chamber 7.

Eccentric shaft 10: be fixed on stepping motor 11 belows with the axial workpiece of eccentric spindle nose, design its eccentricity value according to load and oscillation frequency.

Stepping motor 11: drive eccentric shaft 10 to rotate by synchronizing wheel, Timing Belt.

Movable sealing plate 12: sheet metal part, be responsible for waving the open and close of chamber 7 charge doors.

Pen cylinder 13: the reciprocating action of being responsible for movable sealing plate 12.

Feed pipe interface 14: with wave chamber 7 left end discharge gates and be connected.

Filtering net orifice plate 15: the computor-keyboard silicon particle of recovery is blocked in feed back storehouse 2, dodges and flow into interface together with air.

Exhaust column interface 16: with the negative press bond of vortex air pump, negative pressure is provided to feed back storehouse 2.

Floating junction 17: serve as eccentric shaft 10 and wave the connecting rod between chamber 7.

Dodge gate cylinder 18: control feed back storehouse 2 dodge gates and open or close, cylinder guide rod leading portion is equipped with jacking block.

19: tabular sealing up a door of dodge gate, control its on-off action by upper end cylinder, by hinge, are connected with feed back storehouse 2.

Mounting base 20: the transparent PC plate that feed back storehouse 2 is installed to tops on described vibration arrangement machine.

Line slideway auxiliary 21: carrying is waved chamber 7 and done reciprocating linear motion thereon.

Machine workflow is arranged in described vibration:

Tool dish is transported to behind described vibrating grizzly 8 belows by described upper strata belt conveyor line 4, by electric eye, its position detected, the time delay of belt line stops operating, described tool dish dish is encountered after stopping cylinder and is stopped under described vibrating grizzly 8, now there is a upper top gas cylinder described tool dish below, described tool pan arrest is risen with described vibrating grizzly 8 and fitted completely, between described vibrating grizzly 8 and described tool dish, by four registration masts, guarantee that both positions, hole align; After upper top gas cylinder puts in place, the described stepping motor 11 of being responsible for vibration drives described eccentric shaft 10 to start to rotate, and waves chamber 7 and move back and forth on described line slideway auxiliary 21 described in described eccentric shaft 10 pulls.

Shown in Figure 5, chamber 7 is waved described in connecting by feed back pipeline 22 in described feed back storehouse 2, absorption base plate 23 holds the computor-keyboard silicon particle that falls into position, hole by position, tool dish hole, the computor-keyboard silicon particle of outside, position, hole is swept into described feed back pipeline 22 by malleation wind, the first vortex air pump 24 is responsible for the tool layer of trying to get to the heart of a matter by the first negative pressure wind pipeline 26 negative pressure wind is provided, and the second vortex air pump 25 waves chamber 7 right side malleation wind and described feed back storehouse 2 interior negative pressure winds described in being responsible for by the second negative pressure wind pipeline 27 and positive pressure air pipe 28.

The preferred embodiment that the foregoing is only utility model, is not limited to the utility model, and for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims (6)

1. a computor-keyboard silicon particle vibrates arrangement machine, it is characterized in that: the feed back storehouse (2) that comprises the feed bin (1) on top, separates by dodge gate (19) with described feed bin (1), control panel (3), the doffer (6) at middle part, be arranged on described doffer (6) lower end wave chamber (7), eccentric vibration mechanism (9), upper strata belt conveyor line (4), the bottom belt conveyor line (5) of bottom and line slideway auxiliary (21);

Described eccentric vibration mechanism (9) involving vibrations sieve (8) and eccentric shaft (10), described in being arranged on, described vibrating grizzly (8) waves lower end, chamber (7), described eccentric shaft (10) with described in wave between chamber (7) and be connected by floating junction (17), described in wave chamber (7) and be arranged on described line slideway auxiliary (21).

2. a kind of computor-keyboard silicon particle according to claim 1 vibrates arrangement machine, it is characterized in that: described eccentric vibration mechanism (9) also comprises stepping motor (11), movable sealing plate (12) and controls the pen cylinder (13) of described movable sealing plate (12) reciprocating action, described eccentric shaft (10) is fixed on described stepping motor (11) below, waves the charge door end in chamber (7) described in described movable sealing plate (12) is arranged on.

3. a kind of computor-keyboard silicon particle according to claim 1 and 2 vibrates arrangement machine, it is characterized in that: described feed back storehouse (2) comprises with described waves feed pipe interface (14), filtering net orifice plate (15) and the exhaust column interface (16) that chamber (7) left end discharge gate is connected, dodge gate cylinder (18) is arranged on top, described feed back storehouse (2), described dodge gate (19) is connected with described feed back storehouse (2) by hinge, and described feed back storehouse (2) is arranged on tops on described vibration arrangement machine by mounting base (20).

4. a kind of computor-keyboard silicon particle vibration arrangement machine according to claim 3, is characterized in that: described doffer (6) comprises the knurled shaft of a pair of relative antiport and 3 gear of transferring rotational motion successively.

5. a kind of computor-keyboard silicon particle vibration arrangement machine according to claim 4, is characterized in that: described exhaust column interface (16) and the negative press bond of vortex air pump.

6. a kind of computor-keyboard silicon particle vibration arrangement machine according to claim 5, is characterized in that: described mounting base (20) is transparent PC plate.