CN204802689U - Light -emitting -diode array heads positioning method and image forming apparatus - Google Patents

Abstract

The utility model discloses a light -emitting -diode array heads positioning method and image forming apparatus, which comprises a body. Give the carton, can freely take out or push from the body, the feed roll is installed at this internally for the output paper, the pole member is set up in giving the carton to be configured as and rotate, elevating system is set up on the pole component to be configured as and rise along with the rotation of pole component or descend, meshing member, quilt are set up, and internal side ascending serves being pushed originally for the carton at the pole member, the bottom plate is used for piling up the paper on, elevating system drives the bottom plate and rises or descend along with the rotation of pole component, the control member is set up on the body to be configured as and rotatable and mesh with the meshing component, pressure spring is set up on the control member. Wherein, the bottom plate can rise along with the reduction of paper is automatic.

Description

Image processing system

Technical field

The utility model relates to a kind of image processing system, especially, relates to and a kind ofly has base plate and automatically to rise the image processing system of function.

Background technology

In the image processing system of existing such as chopping machine, decal etc., comprise body and drawer type to carton etc., body is provided with guide rail, moves along guide rail to carton, be pushed into relative to body or extract out.After being drawn out of to carton, paper can be put into carton.Multiple paper (being called simply hereinafter " paper ") are placed on base plate in a stacked fashion.Be stacked on uppermost paper to be fed to, base plate can be lifted by being arranged on to the increased pressure board lifting mechanism (that is, the lifting mechanism in the utility model) on carton.Be fully advanced after in body to carton, namely, under being moved to carton and being in completely closed mode of operation with body, when image processing system runs, feed roll and coordinating to carton, so that paper is in turn fed to the image forming portion of the body of image processing system from uppermost paper, thus forms desired image on each paper.

Extract out to the increased pressure board lifting mechanism on carton in the office equipment such as present chopping machine, two kinds of modes are had to realize, one is, Compress Spring pressurizes, and when extracting out to carton, with hand, increased pressure board is depressed into locked position, spring is made to put aside pressure, when pushing office equipment to carton, triggering locking device, making increased pressure board increase; Another kind is, motor drives pressurization, and when to shift onto to carton, motor driven gear wheel rotates, and extension spring, makes base plate pressurize.

But above two kinds of implementations all have weak point.For front a kind of Compress Spring pressuring method, Compress Spring pressurization needs manual depression base plate, and whole operating process needs manually to complete, and pressure process is for pressurize instantaneously, and operability is bad, and stress is unstable; Drive for pressurization for rear a kind of motor, motor drives pressurization to need complicated link gear and control software design to realize function, and therefore required cost is higher, and needs to take large quantity space.

Utility model content

So an object of the present utility model is to provide a kind of image processing system, realizes adding press by physical construction and automatically to rise function, complete the motion process of whole rising, instead of traditional complicated motor-driven system.

The utility model provides a kind of image processing system, and it comprises: body, to carton, can freely extract out from described body or push, feed roll, is installed in described body, for output paper, bar component, is arranged on described in carton, and is configured to rotate, lifting mechanism, is arranged on described bar component, and is configured to along with the rotation of described bar component and rises or decline, mesh component, is arranged on described bar component on described one end be pushed into carton on described intrinsic direction, base plate, for stacking described paper on described base plate, the rotary side that described base plate is configured to described base plate is rotatably installed in described on carton, lifting mechanism described in the rotary actuation of described bar component rises or declines, rising or the described rotary side of described base plate while of driving liter or decline on the lifting side of described base plate that declines of described lifting mechanism rotate, wherein, the described lifting side of described base plate is the side near feed roll, control member, is set up on the body, and is configured to be rotatable and engage with described mesh component, pressing spring, be arranged on described control member, wherein, described be pushed in described body to carton after, and before described mesh component does not engage with described control member, described base plate is horizontality, described bar component and described control member all do not rotate, described pressing spring is in reset mode, described be pushed further in described body to carton after, and after described mesh component engages with described control member and before described paper withstands described feed roll, described mesh component rotates and drives described bar component to rotate under the control of described control member and the effect of described pressing spring, thus make described lifting mechanism increase, described base plate rises, distance between described paper and described feed roll reduces, now, described control member does not rotate, described pressing spring is in described reset mode, described be pushed further in described body to carton after, and after described paper withstands described feed roll, under the effect of the antagonistic force on the hand of rotation of described feed roll relative to described bar component, the rising of described base plate is obstructed, described bar component no longer rotates, simultaneously, described antagonistic force forces described pressing spring become deformed state from described reset mode thus make described control member rotate until be describedly driven fully into described body to carton, when described paper reduces owing to being output, described antagonistic force declines, described pressing spring is recovered from described deformed state to described reset mode, thus drive described control member to rotate, described bar component is rotated under the control of described control member thus makes described base plate increase until described paper withstands described feed roll.

According to the novel mechanism that image processing system use cost is low, number of components is few of embodiment of the present utility model, complete base plate and automatically to rise function.Further, image processing system that the utility model provides uses spring in conjunction with inclined-plane pressurization, make paper can obtain when any quantity and any size fluctuation very little to letterweight.The image processing system that the utility model provides uses double helix face rotating bottom board lifting mechanism further, employs the principle of helical surface laborsaving and spiral rotating extension spring pressurization, achieves when pushing to carton, makes base plate slowly rise and pressurize by helical surface.

Described control member inside has two inclined-planes from one end to the other side extended.

Described control member inside has two spiral fashion curved surfaces from one end to the other side extended.

Described control member has barrel-like structure.

Described control member comprises double curvature segments and lifting mechanism support, wherein, one end of described lifting mechanism support is connected with one end of described pressing spring, one end of shown double curvature segments is connected with the other end of described pressing spring, described double curvature segments is rotatably fixed on described lifting mechanism support, and the other end of described double curvature segments is connected with described body.

Described mesh component is arranged on described bar component in the mode orthogonal with described bar component, and has bar staff-like shape

Described lifting mechanism is the column that can rise along with the rotation of described bar component or decline.

Employ double helix face according to the image processing system of embodiment of the present utility model and realize spiral rotating stretching pressurization spring pressurization, make in the process of motion laborsaving.Pressing spring is combined with double helix face, realizes the technique effect be carried at leisure to letterweight in motion process on paper.Make use of the directional tagging in double helix face, reaching to carton when pushing and pull out, can move smoothly.Make use of bi-curved Impact direction and final point of action, can service life of extending mechanism.

Accompanying drawing explanation

Other objects of embodiment and further feature will coordinate reading accompanying drawing to become more apparent from the following detailed description, wherein:

Fig. 1 be diagram have according to embodiment to the block diagram of image processing system of carton;

Fig. 2 is block diagram and the enlarged partial isometric view thereof that diagram has the image processing system of the base plate lifting mechanism according to embodiment;

Fig. 3 is the block diagram of diagram according to the base plate lifting mechanism of embodiment;

Fig. 4 is that diagram is according to the block diagram of the double curvature segments of embodiment and section-drawing;

Fig. 5 is block diagram and the section-drawing of the partial enlargement that diagram is engaged with mesh component according to the double curvature segments of embodiment;

Fig. 6 is the schematic diagram before diagram is engaged with mesh component according to the double curvature segments of embodiment;

Fig. 7 is diagram according to embodiment when being fully loaded with to carton and pushing the schematic diagram of body to double curvature segments during mode of operation and mesh component;

Fig. 8 is diagram according to embodiment when less to carton paper or do not have paper and push the schematic diagram of body to double curvature segments during mode of operation and mesh component;

Fig. 9 is the double curvature segments when to carton from body be drawn out of diagram according to embodiment and the schematic diagram of mesh component;

Figure 10 is the schematic diagram of diagram according to the base plate lifting mechanism of embodiment;

Figure 11 is that diagram is to the carton amount of pushing, to the instruction diagram of the corresponding relation between the axial slippage of letterweight, disjoining pressure and feed roll;

Figure 12 is to carton schematic diagram in running order in the body.

Detailed description of the invention

Below with reference to accompanying drawing, preferred embodiment is described.

Fig. 1 be diagram have according to embodiment to the block diagram of image processing system of carton.As shown in Figure 1,1 is image forming device body, and 2 is to carton.

Fig. 2 is block diagram and the enlarged partial isometric view thereof that diagram has the image processing system of the base plate lifting mechanism according to embodiment.Fig. 3 is the block diagram of diagram according to the base plate lifting mechanism of embodiment.As shown in Figure 3, (namely image processing system according to the base plate lifting mechanism of the utility model embodiment comprises base plate 3, lifting mechanism, increased pressure board 4 in embodiment or bar), push the bar component 5 one end on body direction with mesh component to carton, the double curvature segments 6 with barrel-like structure and two spiral fashion curved surfaces from one end to the other side extended, lifting mechanism support 7, pressing spring 8, to carton 9 and feed roll 10, wherein, double curvature segments 6 and lifting mechanism support 7 form control member.One end of lifting mechanism support 7 is connected with one end of pressing spring 8, and one end of double curvature segments 6 is connected with the other end of pressing spring 8, and double curvature segments 6 is rotatably fixed on lifting mechanism support 7, and the other end of double curvature segments 6 is connected with body 1.Mesh component is arranged on bar component 5 in the mode orthogonal with bar component 5, and has bar staff-like shape.Mesh component and bar component 5 are fixing.

Can freely extract out from body 1 to carton 2 or push.Feed roll 10 is installed in body 1, for output paper.The bar component 5 with the mesh component of bar staff-like shape is arranged on in carton 2, and is configured to rotate.Wherein, this mesh component is arranged on the one end on bar component 5 is pushed in body 1 direction at institute's carton 2.Increased pressure board 4 is arranged on bar component 5, and is configured to along with the rotation of bar component 5 and rises or decline.For stack paper on base plate 3, the rotary side that base plate 3 is configured to base plate 3 is rotatably installed in on carton 2, the rotary actuation increased pressure board 4 of bar component 5 rises or declines, the rising of increased pressure board 4 or decline drive base plate 3 lifting side on to rise or the rotary side of the base plate 3 simultaneously of declining rotates, wherein, the lifting side of base plate 3 is the sides near feed roll 10, namely, as shown in Figure 3, the lifting side of base plate 3 is below feed roll 10, the i.e. left side of base plate 3 in figure 3, the rotary side of base plate 3 is relative with lifting side, i.e. the right side of base plate 3 in figure 3.Wherein, increased pressure board 4 drives the opposite side of base plate 3 to rise or decline along with the rotation of bar component 5.Double curvature segments 6 and lifting mechanism support 7 are arranged on body 1, and are configured to be rotatable and engage with mesh component; One end of lifting mechanism support 7 is connected with one end of pressing spring 8, and one end of double curvature segments 6 is connected with the other end of pressing spring 8.

Fig. 4 is that diagram is according to the block diagram of the double curvature segments 6 of embodiment and section-drawing.Double curvature segments 6 has as shown in Figure 4 two the spiral fashion curved surfaces from one end to the other side extended.Fig. 5 is block diagram and the section-drawing of the partial enlargement that diagram is engaged with mesh component according to the double curvature segments 6 of embodiment.As shown in Figure 5, after mesh component to contact with double curvature segments 6 and engages, to carry out rotating slowly to enter double curvature segments 6 inner along with the guiding of the helical surface of double curvature segments 6 for mesh component, simultaneously, along with the rotation of mesh component, driven rod component 5 rotates together.

Fig. 6 is the schematic diagram before diagram is engaged with mesh component according to the double curvature segments of embodiment.As shown in Figure 6, after being pushed in body 1 to carton 2, and before mesh component does not engage with double curvature segments 6, base plate 3 and bar component 5 keep horizontality under gravity, that is, horizontal initial bit.Bar component 5 and double curvature segments 6 all do not rotate.Pressing spring 8 is in reset mode.Further, double curvature segments 6 under the pulling of pressing spring 8 and the spacing lower maintenance of lifting mechanism support 7 horizontal by а 0 jiao.The distance in two boss centers of circle of pressing spring 8 is L0.Especially, as shown in Figure 6, in the present embodiment, а 0 is 25 °, and L0 is 38.3mm.

Further, after being pushed further in body 1 to carton 2, and after mesh component engages with double curvature segments 6 and before paper withstands feed roll 10, mesh component rotates under the control of double curvature segments 6, lifting mechanism support 7 and under the effect of pressing spring 8 and driven rod component 5 rotates, thus make that increased pressure board 4 rises, base plate 3 rises, distance between paper and feed roll 10 reduces, now, double curvature segments 6 does not rotate, and pressing spring 8 is in reset mode.

Again further, after being pushed further in body 1 to carton 2, and after paper withstands feed roll 10, under the effect of the antagonistic force on the hand of rotation of feed roll 10 relative to bar component 5, the rising of base plate 3 is obstructed, and bar component 5 no longer rotates, simultaneously, antagonistic force forces pressing spring 8 become deformed state from reset mode thus double curvature segments 6 rotated until be driven fully into body 1 to carton 2, namely gives carton 2 in running order.

Fig. 7 is diagram according to embodiment when being fully loaded with to carton and pushing the schematic diagram of body to double curvature segments during mode of operation and mesh component.As shown in Figure 7, when being pushed into body 1 to carton 2, the mesh component of bar component 5 contacts with the double helix face of double curvature segments 6, mesh component is rotated by curved surface guiding, when rotating to an angle, paper withstands feed roll 10, base plate 3 is hindered to rise, when continuing to promote to carton 2, double curvature segments 6 rotates, pressurization pressing spring 8, until be pushed to mode of operation to carton 2, base plate 3 is under the obstruction of paper, keep certain position, mesh component rotates to the position horizontal by β 1 jiao, double curvature segments 6 rotates Δ 1 jiao and is а 1 jiao with the pass of level attitude, the distance in two boss centers of circle of pressing spring 8 is L1, stretched length is D1.Especially, as shown in Figure 7, in the present embodiment, а 1 is-15 °, and β 1 is 15 °, and Δ 1 is 40 °, and L1 is 60.3mm, D1 is 22mm.

Fig. 8 is diagram according to embodiment when less to carton paper or do not have paper and push the schematic diagram of body to double curvature segments during mode of operation and mesh component.As shown in Figure 8, when being pushed into body 1 to carton 2, the mesh component of bar component 5 contacts with the double helix face of double curvature segments 6, mesh component is rotated by curved surface guiding, when rotating to an angle, paper withstands feed roll 10, base plate 3 is hindered to rise, when continuing to promote to carton 2, double curvature segments 6 rotates, pressurization pressing spring 8, until be pushed to mode of operation to carton 2, base plate 3 is under the obstruction of paper, keep certain position, mesh component rotates to the position horizontal by β 2 jiaos, double curvature segments 6 rotates Δ 2 jiaos, be а 2 jiaos with the pass of level attitude, the distance in two boss centers of circle of pressing spring 8 is L2, stretched length is D2.Especially, as shown in Figure 8, in the present embodiment, а 2 is 5 °, and β 2 is 35 °, and Δ 2 is 20 °, and L2 is 47.2mm, D2 is 8.9mm.

Especially, above-mentioned а (а 0, а 1, а 2), β (β 1, β 2), Δ (Δ 1, Δ 2), L (L0, L1, L2) and D (D1, D2) are not limited in above embodiment the concrete numeral enumerated, and can change arbitrarily according to actual conditions.Concrete numeral cited in above embodiment is only used for the present invention is described.

Further, when paper reduces owing to being output, antagonistic force declines, and pressing spring 8 is recovered from deformed state to reset mode, thus drive double curvature segments 6 to rotate, make bar component 5 rotate under the control of double curvature segments 6 thus make base plate 3 increase until paper withstands feed roll 10.

As another embodiment of the present utility model, double curvature segments 6 inside can have two inclined-planes from one end to the other side extended.

As another embodiment of the present utility model, lifting mechanism 4 is the columns that can rise along with the rotation of bar component 5 or decline.

Use spiral rotating stretching pressurization spring pressurization according to the image processing system of embodiment of the present utility model, and there is following technique effect:

In time giving in the vacant propelling body 1 of carton 2, due to the guiding of the helical surface of double curvature segments 6, base plate 3 is driven automatically to rise, base plate 3 rises to feed roll 10, under the obstruction of feed roll 10, control member pulls pressing spring 8, makes base plate 3 pairs of feed rolls 10 produce pressure;

When advancing in body 1 to carton 2 is fully loaded, due under the guiding of double curvature segments 6 helical surface and the stretching double action of pressing spring 8, base plate 3 is driven automatically to rise, base plate 3 rises and drives paper to press close to feed roll 10, under the obstruction of feed roll 10, control member pulls pressing spring 8, and now pressing spring 8 stretching distance is than reset mode duration, makes paper produce pressure to feed roll 10;

When pulling out from body 1 to carton 2 is vacant, slowly control member is departed to carton 2, pressing spring 8 resilience, control member is pulled to playback, (namely base plate 3 drops to initial position along the curved surface of double curvature segments 6 lentamente, horizontality), thus make control member and pressing spring 8 all get back to initial position (that is, pressing spring 8 gets back to reset mode).

Fig. 9 is the double curvature segments 6 when to carton 2 from body 1 be drawn out of diagram according to embodiment and the schematic diagram of mesh component.As shown in Figure 9, when pulling out from body 1 to carton 2 is fully loaded, slowly control member is departed to carton 2, pressing spring 8 resilience, control member is pulled to playback, and act on effectively on base plate 3 always, make base plate 3 drop to initial position along curved surface lentamente under the effect of the curved surface of pressing spring 8 and double curvature segments 6, thus make control member and pressing spring 8 all get back to initial position.

Figure 10 is the schematic diagram of diagram according to base plate 3 lifting mechanism of embodiment.Figure 11 is that diagram is to the carton amount of pushing, to the instruction diagram of the corresponding relation between the axial slippage of letterweight, disjoining pressure and feed roll.Figure 12 is to carton 2 schematic diagram in running order in body 1.When the midline position all having arrived image processing system to carton 2 and feed roll 10 is control position, namely in running order.

Employ double helix face according to the image processing system of embodiment of the present utility model, make in the process of motion laborsaving.Pressing spring is combined with double helix face, realizes the technique effect be carried at leisure to letterweight in motion process on paper.Make use of the directional tagging in double helix face, reaching to carton when pushing and pull out, can move smoothly.Make use of bi-curved Impact direction and final point of action, can service life of extending mechanism.

Although specific embodiment of the present utility model is described, these embodiments are only stated by the mode of example, are not intended to limit scope of the present utility model.In fact, the structure of innovation described herein can be implemented by other forms various; In addition, also can carry out various omission to all parts described herein, substitute and change, and not deviate from spirit of the present utility model.Attached claim and the object of equivalents thereof contain to fall into such various forms in scope and spirit of the present utility model or amendment.

Claims (7)

1. an image processing system, is characterized in that, described image processing system comprises:

Body;

To carton, can freely extract out from described body or push;

Feed roll, is installed in described body, for output paper;

Bar component, is arranged on described in carton, and is configured to rotate;

Lifting mechanism, is arranged on described bar component, and is configured to along with the rotation of described bar component and rises or decline;

Mesh component, is arranged on described bar component on described one end be pushed into carton on described intrinsic direction;

Base plate, for stacking described paper on described base plate, the rotary side that described base plate is configured to described base plate is rotatably installed in described on carton, lifting mechanism described in the rotary actuation of described bar component rises or declines, rising or the described rotary side of described base plate while of driving liter or decline on the lifting side of described base plate that declines of described lifting mechanism rotate, wherein, the described lifting side of described base plate is the side near feed roll;

Control member, is set up on the body, and is configured to be rotatable and engage with described mesh component;

Pressing spring, is arranged on described control member, wherein,

Described be pushed in described body to carton after, and before described mesh component does not engage with described control member, described base plate is horizontality, and described bar component and described control member all do not rotate, and described pressing spring is in reset mode,

Described be pushed further in described body to carton after, and after described mesh component engages with described control member and before described paper withstands described feed roll, described mesh component rotates and drives described bar component to rotate under the control of described control member and the effect of described pressing spring, thus make that described lifting mechanism rises, described base plate rises, distance between described paper and described feed roll reduces, now, described control member does not rotate, described pressing spring is in described reset mode

Described be pushed further in described body to carton after, and after described paper withstands described feed roll, under the effect of the antagonistic force on the hand of rotation of described feed roll relative to described bar component, the rising of described base plate is obstructed, described bar component no longer rotates, meanwhile, described antagonistic force forces described pressing spring become deformed state from described reset mode thus described control member is rotated until to be describedly driven fully into described body to carton

When described paper reduces owing to being output, described antagonistic force declines, described pressing spring is recovered from described deformed state to described reset mode, thus drive described control member to rotate, described bar component is rotated under the control of described control member thus makes described base plate increase until described paper withstands described feed roll.

2. image processing system as claimed in claim 1, is characterized in that,

Described control member inside has two inclined-planes from one end to the other side extended.

3. image processing system as claimed in claim 1, is characterized in that,

Described control member inside has two spiral fashion curved surfaces from one end to the other side extended.

4. image processing system as claimed any one in claims 1 to 3, is characterized in that,

Described control member has barrel-like structure.

5. image processing system as claimed in claim 1 or 2, is characterized in that,

Described control member comprises double curvature segments and lifting mechanism support, wherein, one end of described lifting mechanism support is connected with one end of described pressing spring, one end of shown double curvature segments is connected with the other end of described pressing spring, described double curvature segments is rotatably fixed on described lifting mechanism support, and the other end of described double curvature segments is connected with described body.

6. image processing system as claimed in claim 1, is characterized in that,

Described mesh component is arranged on described bar component in the mode orthogonal with described bar component, and has bar staff-like shape.

7. image processing system as claimed in claim 1, is characterized in that,

Described lifting mechanism is the column that can rise along with the rotation of described bar component or decline.