CN110181955B - Automatic ink adding device of printing equipment adopting progressive vibration principle - Google Patents

Abstract

The invention discloses an automatic ink adding device of printing equipment by adopting a progressive vibration principle. The ink adding device drives the feeding dial wheel to rotate through the material roller and controls the self-pulling type vibration in the connecting and leading mechanism to shake, so that the equal division accelerator can accelerate the flow rate of the ink powder in the connecting and leading cavity and perform equal division and desertification treatment, thereby avoiding uneven adding uniformity caused by wet and coagulated ink powder, improving the conveying stability and preventing the influence on the printing quality caused by ink filling.

Description

Automatic ink adding device of printing equipment adopting progressive vibration principle

Technical Field

The invention relates to the field of ink boxes, in particular to an automatic ink adding device of printing equipment, which adopts a progressive vibration principle.

Background

The printer is widely used in office places as a main output device for displaying a computer processing result, ink cartridges used in the printer are generally divided into liquid ink and powder ink, a laser printer adopts a toner printer, one toner can print nearly thousands of data, and equivalent ink can only print hundreds of data, so that the toner type printer is mostly adopted under the prospect of cost saving. The existing ink box on the market has the following problems in the using process:

when the prior art is used for adding the toner, the added toner is uneven in uniformity due to the fact that the toner is often wet and coagulated in an inner cavity for providing the toner, the toner is filled in the conveying process, and the subsequent printing quality is finally influenced.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an automatic ink adding device of printing equipment by adopting a progressive vibration principle, so as to solve the problem that when the ink powder is added in the prior art, the uniformity of the added ink powder is uneven due to the fact that the inner cavity for providing the ink powder often generates wet clumps of the ink powder, the ink powder is filled in the conveying process, and the subsequent printing quality is finally influenced.

In order to achieve the purpose, the invention is realized by the following technical scheme: the automatic ink adding device of the printing equipment adopting the progressive vibration principle structurally comprises an embedded plate, a main body, a high-altitude adjusting plate, an ink adding device and positioning pull buckles, wherein the embedded plate is installed at the front end of the main body in a buckling mode, the high-altitude adjusting plate is arranged in the middle of the rear end of the main body, the ink adding device is installed at the right end of the main body in an embedding mode, the two positioning pull buckles are arranged, and the two positioning pull buckles are installed at the left end and the right end of the embedded plate in an.

As the further optimization of this technical scheme, add black device including connecing draw mechanism, feeding storehouse, material roller, interior minute board, feeding thumb wheel, inside the feeding storehouse was located through the lock mode parallel in material roller both ends, feeding storehouse lower extreme was equipped with interior minute board, and feeding thumb wheel middle part is connected with the feeding storehouse left end through material roller, connects to draw the right side lower extreme of mechanism and passes through the gomphosis mode and install in the feeding storehouse left end.

As a further optimization of the technical scheme, the connecting mechanism comprises a connecting cavity, an equal division accelerator, a progressive frame, a self-pulling type vibrator and an assembling plate, the assembling plate is installed at the left end of the bottom of the connecting cavity in a buckling mode, the equal division accelerator is arranged at the lower end in the connecting cavity, the self-pulling type vibrator is installed at the lower end of the assembling plate in a buckling mode, the self-pulling type vibrator is connected with the equal division accelerator through the progressive frame, and the self-pulling type vibrator is connected with the left end of the material roller.

As the further optimization of this technical scheme, the halving accelerator includes built-in guide ring, pine shovel roof beam, outer expanding center pillar, and outer expanding center pillar locates built-in guide ring middle part, and the pine shovel roof beam is equipped with more than two, and inside the array distribution of built-in guide ring, outer expanding center pillar respectively with pine shovel roof beam tip lock.

As further optimization of the technical scheme, the equal speed accelerator further comprises an ejection pin, a vertical lifting sleeve, an arc-shaped guide groove, a sleeve base, a guide pillar and a sliding pin, wherein the bottom of the guide pillar is arranged at the top of the sleeve base and is of an integrated structure, the sleeve base is of a cylindrical structure, the upper end of the sleeve base is sleeved and connected with the vertical lifting sleeve, the ejection pin is arranged at the top of the vertical lifting sleeve in a welding mode, the side surface of the vertical lifting sleeve is sleeved and connected with an outward-expanding type center pillar, the arc-shaped guide groove is arranged on the surface of the guide pillar and is of an integrated structure, and the interior of the vertical lifting.

As the further optimization of the technical scheme, the self-pulling vibrator comprises a gap bridge rotating piece, embedded pulling blocks, elastic elements and two extruding convex balls, wherein the two extruding convex balls are arranged more than two and are uniformly and equidistantly distributed on the surface of the gap bridge rotating piece, the gap bridge rotating pieces are provided with two grooves for installing the embedded pulling blocks, and the embedded pulling blocks are connected with each other through the elastic elements.

As the further optimization of the technical scheme, the inclined guide block is arranged in the blade of the feeding thumb wheel, so that the guide quantity is accelerated in the material poking process.

As the further optimization of the technical scheme, the middle part of the progressive frame is provided with the fulcrum positioning seat, so that the vibration of the self-pulling vibrator can be progressively transmitted to the equal division accelerators in a tilting mode, and the ordered transfer power is further ensured.

As the further optimization of the technical scheme, the upper surface of the loosening shovel beam is provided with two shovel edges, so that the solidified ink powder is ensured to be uniformly divided.

Advantageous effects

The invention relates to an automatic ink adding device of printing equipment adopting progressive vibration principle, a main body is arranged in a printer through an embedded plate and is fixed by a positioning pull buckle, the height of the main body can be adjusted by a high-altitude adjusting plate, the ink adding device is used for automatically adding ink powder, a material roller drives a feeding shifting wheel to shift the ink powder in a guiding mechanism into a feeding bin when rotating, the ink powder is finally evenly distributed into the printer through an inner dividing plate, a self-pulling vibrator is connected with the feeding shifting wheel to synchronously rotate, the lower end of a progressive frame is vibrated, a tilting equal-dividing speed increaser at the upper end of the progressive frame rotates forwards and backwards, the ink powder in a guiding cavity is equally divided, the sand-shaped ink powder can smoothly pass through the swinging process of a built-in guide ring, the solidified ink powder can be equally divided into sand-shaped processes by a loosening shovel beam, a vertical lifting sleeve is connected with an outer expanding type center pillar to synchronously rotate, and through the sliding fit of the built-in sliding pin and the arc-shaped guide groove on the guide pillar, the ejection pin is finally driven to push the ink powder at the upper end of the connecting and leading cavity, the ink powder is prevented from being adsorbed at the upper end of the connecting and leading cavity, the bridging rotor is provided with two, one is connected with the progressive frame, the other is connected with the feeding thumb wheel, the extrusion is shaken through the dislocation of the extruding convex balls in the rotating process, and the embedded pull block in the bridging rotor can be oppositely reset through the elastic element, so that the consistency of the distance between the two groups of extruding convex balls is ensured, and the stability of vibration is improved.

Based on the prior art, the invention can achieve the following advantages after operation:

the ink adding device drives the feeding thumb wheel to rotate through the material roller, and controls the self-pulling type vibration in the leading mechanism to shake, so that the equal division accelerator can accelerate the flow rate of the ink powder in the leading cavity and perform equal division desertification treatment, thereby avoiding uneven adding uniformity caused by wet clump of the ink powder, improving the conveying stability and preventing the influence on the printing quality caused by ink filling.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of an automatic ink adding device of a printing apparatus according to the present invention, which adopts the progressive vibration principle.

Fig. 2 is a rear view of a cross-sectional structure of an ink supply device of an automatic ink supply device of a printing apparatus according to the present invention, which employs a progressive vibration principle.

Fig. 3 is a top view of a cross-sectional structure of a drawing mechanism of an automatic ink adding device of a printing apparatus adopting the progressive vibration principle.

FIG. 4 is a schematic top view of an equal speed accelerator of an automatic inking device of a printing apparatus according to the present invention.

Fig. 5 is a front view of a sectional structure of an expanding center pillar of an automatic ink feeding device of a printing apparatus according to the present invention using a progressive vibration principle.

Fig. 6 is an exploded view of a self-pulling vibrator of an automatic ink-feeding device of a printing apparatus according to the present invention, which employs a progressive vibration principle.

Reference numerals in the drawings indicate: panel-1, main body-2, altitude adjusting plate-3, ink adding device-4, positioning pull buckle-5, connecting mechanism-401, feeding bin-402, material roller-403, inner partition plate-404, feeding thumb wheel-405, connecting cavity-4011, halving accelerator-4012, progressive frame-4013, self-pulling vibrator-4014, assembling plate-4015, built-in guide ring-40121, shovel beam-40122, outer expanding center column-40123, ejection pin-401231, vertical lifting sleeve-401232, arc guide groove-401233, sleeve base-401234, guide column-401235, sliding pin-401236, bridge-40141, built-in pull block-40142, elastic element-40143 and counter-extruding convex ball-40144.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

The upper and lower, inner and outer, front and rear, and left and right in the present invention are referred to with reference to the orientation in fig. 1.

Examples

Referring to fig. 1 to 6, the present invention provides an automatic ink feeding device of a printing apparatus using a progressive vibration principle, which comprises a panel 1, a main body 2, two high-altitude adjusting plates 3, an ink feeding device 4, and positioning fasteners 5, wherein the panel 1 is mounted at the front end of the main body 2 in a buckling manner, the high-altitude adjusting plate 3 is disposed at the middle of the rear end of the main body 2, the ink feeding device 4 is mounted at the right end of the main body 2 in an embedding manner, the two positioning fasteners 5 are mounted at the left and right ends of the panel 1 in an embedding manner, the main body 2 is mounted inside the printer through the panel 1 and is fixed by the positioning fasteners 5, the height of the main body 2 can be adjusted by the high-altitude adjusting plates 3, and the ink feeding device 4 is used for automatically feeding ink powder.

Add black device 4 including connecing draw mechanism 401, feeding storehouse 402, material roller 403, interior division board 404, feeding thumb wheel 405, inside feeding storehouse 402 was located through the lock mode parallel at material roller 403 both ends, feeding storehouse 402 lower extreme was equipped with interior division board 404, feeding thumb wheel 405 middle part is connected with feeding storehouse 402 left end through material roller 403, connect draw mechanism 401 right side lower extreme to install in feeding storehouse 402 left end through the gomphosis mode, inside material roller 403 drove feeding thumb wheel 405 will connect the powdered ink that draws in mechanism 401 to dial into feeding storehouse 402 when rotating, divide equally to the printer inside finally through interior division board 404.

The connecting and guiding mechanism 401 comprises a connecting and guiding cavity 4011, an equal-division accelerator 4012, a progressive frame 4013, a self-pulling type vibrator 4014 and an assembling plate 4015, the assembling plate 4015 is installed at the left end of the bottom of the connecting and guiding cavity 4011 in a buckling mode, the equal-division accelerator 4012 is arranged at the lower end inside the connecting and guiding cavity 4011, the self-pulling type vibrator 4014 is installed at the lower end of the assembling plate 4015 in a buckling mode, the self-pulling type vibrator 4014 is connected with the equal-division accelerator 4012 through the progressive frame 4013, the self-pulling type vibrator 4014 is connected with the left end of a material roller 403, the self-pulling type vibrator 4014 is connected with a feeding shifting wheel 405 to rotate synchronously, the lower end of the progressive frame 4013 vibrates, the upward tilting equal-division accelerator 4012 at the upper end of the progressive frame 4013 rotates forwards and backwards, and equally divides toner in the connecting and guiding cavity.

Halving accelerator 4012 includes built-in guide ring 40121, pine shovel roof beam 40122, expands formula center pillar 40123 outward, expand formula center pillar 40123 outward and locate built-in guide ring 40121 middle part, pine shovel roof beam 40122 is equipped with more than two, and the array distributes inside built-in guide ring 40121, expand formula center pillar 40123 outward respectively with pine shovel roof beam 40122 tip lock, built-in guide ring 40121 swing in-process sandy toner can pass through smoothly, and can divide husky the processing equally to the toner that solidifies with the help of pine shovel roof beam 40122.

The halving accelerator 4012 further comprises an ejector pin 401231, a vertical lifting sleeve 401232, an arc-shaped guide groove 401233, a sleeve base 401234, a guide post 401235 and a sliding pin 401236, wherein the bottom of the guide post 401235 is arranged at the top of the sleeve base 401234, the sleeve base 401234 is a cylindrical structure, the upper end of the sleeve base 401234 is sleeved and connected with the vertical lifting sleeve 401232, the ejector pin 401231 is attached to the top of the drop sleeve 401232 by welding, the side surface of the lifting sleeve 401232 is sleeved with an expanding center pillar 40123, the arc-shaped guide groove 401233 is arranged on the surface of the guide post 401235, and is of an integrated structure, the interior of the vertical lifting sleeve 401232 is connected with the arc-shaped guide groove 401233 through the sliding pin 401236, the vertical lifting sleeve 401232 is connected with the outward expanding type center post 40123 to rotate synchronously, and the built-in sliding pin 401236 is in sliding fit with the arc-shaped guide groove 401233 on the guide post 401235, and finally the ejecting pin 401231 is driven to push the toner at the upper end of the connecting and leading cavity 4011, so that the toner is prevented from being adsorbed at the upper end of the connecting and leading cavity 4011.

Self-pulling formula vibrator 4014 includes gap bridge rotor 40141, embedded piece 40142, elastic element 40143, to crowded protruding ball 40144, be equipped with more than two to crowded protruding ball 40144, and even equidistance distributes in gap bridge rotor 40141 surface, gap bridge rotor 40141 is equipped with two, and inside is equipped with installs embedded recess of drawing piece 40142, embedded piece 40142 is connected through elastic element 40143 between two liang, gap bridge rotor 40141 is equipped with two, one with advance the frame 4013 and be connected, another is connected with feeding thumb wheel 405, shakes through the dislocation to crowded protruding ball 40144 to crowded in the rotation process, and can be opposite direction with the embedded piece 42 that draws in the gap bridge rotor 40141 through elastic element 40143 and reset, ensures that two groups are unanimous to crowded protruding ball 40144's interval, has improved the stability of vibration.

The blades of the feeding thumb wheel 405 are internally provided with inclined guide blocks, which is beneficial to accelerating the guiding amount in the material poking process.

The middle part of the progressive frame 4013 is provided with a fulcrum positioning seat, so that the vibration of the self-pulling vibrator 4014 can be progressively transmitted to the equal division accelerator 4012 in a tilting mode, and further the ordered transfer power is ensured.

The upper surface of the loosening shovel beam 40122 is provided with two shovel edges, so that the solidified toner can be rapidly equally and uniformly processed.

The principle of the invention is as follows: the main body 2 is installed inside the printer through the panel 1 and is fixed by the positioning pull buckle 5, the height of the main body 2 can be adjusted by the high-altitude adjusting plate 3, the ink adding device 4 is used for automatically adding the toner, the material roller 403 drives the feeding shifting wheel 405 to shift the toner in the guiding mechanism 401 into the feeding bin 402 when rotating, the toner is finally evenly distributed into the printer through the inner distributing plate 404, the self-pulling vibrator 4014 is connected with the feeding shifting wheel 405 to synchronously rotate, the lower end of the feeding frame 4013 is vibrated, the upper end of the feeding frame 4013 is enabled to tilt the equal-dividing speed increaser 4012 to rotate front and back, the toner in the guiding cavity 4011 is evenly distributed, the sand-shaped toner in the swinging process of the built-in guide ring 40121 can smoothly pass through, the solidified toner can be equally distributed through the shovel beam 40122, the vertical lifting sleeve 401232 is connected with the outer-expanding type central column 40123 to synchronously rotate, and is in sliding fit with the arc-shaped 401233 on the guide post 401235 through the built-in sliding pin guide groove 401236, finally drive ejecting round pin 401231 and promote the powdered ink that connects and draw the chamber 4011 upper end, avoid the powdered ink to adsorb and draw the chamber 4011 upper end, it is equipped with two to cross bridge rotor 40141, one with advance to put up 4013 and be connected, another is connected with feeding thumb wheel 405, to crowding the shake through the dislocation to crowded protruding ball 40144 in the rotation process, and can be with crossing embedded pull block 40142 in the bridge rotor 40141 and be opposite direction and reset through elastic element 40143, ensure that two pairs are unanimous to crowded protruding ball 40144's interval, the stability of vibration has been improved.

The problems that in the prior art, when the ink powder is added, the added ink powder is uneven in uniformity due to the fact that the ink powder provided in the inner cavity of the ink powder is often wet and coagulated, the ink filling phenomenon occurs in the ink powder conveying process, and the subsequent printing quality is finally affected are solved.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (1)

1. The utility model provides an adopt automatic china ink device that adds of printing apparatus of progressive vibration principle, its structure includes panel (1), main part (2), high altitude regulating plate (3), adds black device (4), location draw knot (5), its characterized in that: the panel (1) is installed at the front end of the main body (2), the high-altitude adjusting plate (3) is arranged at the rear end of the main body (2), the ink adding device (4) is installed at the right end of the main body (2), and the positioning pull buckles (5) are installed at the left end and the right end of the panel (1);

the ink adding device (4) comprises a guide mechanism (401), a feeding bin (402), a material roller (403), an inner partition plate (404) and a feeding thumb wheel (405), wherein the material roller (403) is arranged inside the feeding bin (402), the inner partition plate (404) is arranged at the lower end of the feeding bin (402), the feeding thumb wheel (405) is connected with the feeding bin (402) through the material roller (403), and the guide mechanism (401) is arranged at the left end of the feeding bin (402);

the guide connecting mechanism (401) comprises a guide connecting cavity (4011), an equal division accelerator (4012), a progressive frame (4013), a self-pulling type vibrator (4014) and an assembly plate (4015), wherein the assembly plate (4015) is installed at the left end of the bottom of the guide connecting cavity (4011), the equal division accelerator (4012) is arranged at the lower end of the interior of the guide connecting cavity (4011), the self-pulling type vibrator (4014) is installed at the lower end of the assembly plate (4015), the self-pulling type vibrator (4014) is connected with the equal division accelerator (4012) through the progressive frame (4013), and the self-pulling type vibrator (4014) is connected with the left end of the material roller (403);

the halving accelerator (4012) comprises a built-in guide ring (40121), a loosening shovel beam (40122) and an outward expanding type center pillar (40123), wherein the outward expanding type center pillar (40123) is arranged in the middle of the built-in guide ring (40121), the loosening shovel beam (40122) is distributed inside the built-in guide ring (40121), and the outward expanding type center pillar (40123) is buckled with the tail end of the loosening shovel beam (40122) respectively;

the halving accelerator (4012) further comprises an ejector pin (401231), a vertical lifting sleeve (401232), an arc-shaped guide groove (401233), a sleeve base (401234), a guide post (401235) and a sliding pin (401236), wherein the bottom of the guide post (401235) is arranged at the top of the sleeve base (401234), the upper end of the sleeve base (401234) is connected with the vertical lifting sleeve (401232), the ejector pin (401231) is arranged at the top of the vertical lifting sleeve (401232), the side surface of the vertical lifting sleeve (401232) is connected with an outward expanding type center pillar (40123), the arc-shaped guide groove (401233) is arranged on the surface of the guide post (401235), and the vertical lifting sleeve (401232) is connected with the arc-shaped guide groove (401233) through the sliding pin (401236);

self-pulling type vibrator (4014) include bridge rotor (40141), embedded draw piece (40142), elastic element (40143), to crowded protruding ball (40144), distribute in bridge rotor (40141) surface to crowded protruding ball (40144), bridge rotor (40141) is inside to be equipped with embedded and draws piece (40142), embedded draw piece (40142) is connected with elastic element (40143), and bridge rotor (40141) is equipped with two, and one is connected with progressive frame (4013), and another is connected with feeding thumb wheel (405).

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