CN111654590A

CN111654590A - Automatic paper feeding mechanism for name card scanning

Info

Publication number: CN111654590A
Application number: CN201910161560.8A
Authority: CN
Inventors: 胡晓峰; 张永明; 张仁善; 冯红伟; 彭小洪
Original assignee: Shenzhen Yihe Precision Technology Group Co ltd
Current assignee: Shenzhen Yihe Precision Technology Group Co ltd
Priority date: 2019-03-04
Filing date: 2019-03-04
Publication date: 2020-09-11
Anticipated expiration: 2039-03-04
Also published as: CN111654590B

Abstract

The invention relates to a name card scanning automatic paper feed mechanism, which comprises a U-shaped paper feed channel for feeding paper, and a name card feed channel positioned at the rear side of the paper feed channel; a paper taking wheel and a driven wheel driven by the paper taking wheel to clamp and take paper are arranged at the U-shaped bottom of the paper feeding channel; the driven wheel is close to the name card feeding channel; the name card feeding channel feeds the name card between the paper taking wheel and the driven wheel, and the paper feeding channel feeds the name card; the front end of the business card feeding channel is provided with a business card supporting plate for stacking business cards, and the position of the business card feeding channel is provided with a paper separating mechanism for separating paper of the business cards; the paper separating mechanism comprises a name card shaft for driving the name cards to advance in the name card feeding channel, an elastic pressing component matched with the name card shaft for pressing and holding the stacked name cards, and a paper separating block; a gap for controlling the passing number of the business cards exists between the paper separating block and the driven wheel; the structure is greatly simplified, and the whole stack of business cards can be accommodated and continuously fed into the paper feeding channel.

Description

Automatic paper feeding mechanism for name card scanning

Technical Field

The invention relates to the technical field of scanners, in particular to an automatic paper feeding mechanism for business card scanning.

Background

The scanner is a common office appliance, and both patent CN101631183 and patent CN101674386 provide scanners with paper feeding and business card feeding at the same time, however, the structure of the business card feeding part on the scanner is very complicated.

Disclosure of Invention

The present invention is directed to an automatic document feeding mechanism for business card scanning, which overcomes the above-mentioned drawbacks of the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows:

constructing a name card scanning automatic paper feeding mechanism, wherein the name card scanning automatic paper feeding mechanism comprises a U-shaped paper feeding channel for feeding paper, and a name card feeding channel positioned at the rear side of the paper feeding channel; a paper taking wheel and a driven wheel driven by the paper taking wheel to clamp and take paper are arranged at the U-shaped bottom of the paper feeding channel; the driven wheel is close to the name card feeding channel; the business card feeding channel feeds the business card between the paper taking wheel and the driven wheel, and the paper feeding channel feeds the business card; a business card supporting plate for stacking the business cards is arranged at the front end of the business card feeding channel, and a paper separating mechanism for separating the paper of the business cards is arranged at the position of the business card feeding channel; the paper separating mechanism comprises a name card shaft for driving the name card to advance in the name card feeding channel, an elastic pressing component matched with the name card shaft for pressing and holding the stacked name cards, and a paper separating block; and a gap for controlling the passing number of the business cards exists between the paper separating block and the driven wheel.

The automatic paper feed mechanism for name card scanning is characterized in that the elastic pressing component is positioned below the name card shaft; the elastic pressing and holding assembly comprises a longitudinal spring, the top of the longitudinal spring is provided with a top block which is matched with a name card shaft to clamp and stack the name card, and the lower part of the longitudinal spring is fixedly connected with the scanner shell.

The automatic paper feed mechanism for business card scanning is characterized in that a guide post which is positioned in the longitudinal spring and guides the movement of the longitudinal spring is arranged on the scanner shell.

The invention relates to a business card scanning automatic paper feed mechanism, wherein, two sides of a top block are provided with side plates, and the lower surfaces of the side plates are provided with flanges; the scanner shell is provided with a fence arranged outside the guide post in a surrounding mode, and the surface of one side, opposite to the flange, of each flange is attached to the surface of the outer side of the fence.

The automatic paper feed mechanism for business card scanning is characterized in that the paper dividing block is n-shaped, and the business card shaft penetrates through the n-shaped internal area of the paper dividing block; the lower surface of one vertical limit of the n type of branch paper piece is provided with the slope, and the lower extreme on slope and follow driving wheel have the clearance, be provided with on another vertical limit of the n type of branch paper piece with the opening that the kicking block corresponds.

The automatic paper feed mechanism for business card scanning is characterized in that hooks are arranged on two sides of the longitudinal edge of the paper separating block, which is provided with the opening, and the hooks are hung on the bottom end of the business card baffle.

The automatic paper feed mechanism for business card scanning is characterized in that the outer side surface of the longitudinal edge of the paper dividing block, which is provided with the slope, is provided with a plurality of paper guide strips which are matched with the paper feed channel for paper guide.

The automatic paper feeding mechanism for name card scanning of the invention also comprises a driving motor for driving the name card shaft to rotate.

The invention relates to an automatic paper feed mechanism for name card scanning, wherein a first time delay wheel is arranged on a name card shaft; the second time delay wheel is driven by the driving motor to rotate; an occlusion convex block is arranged at the non-axial center position of the first delay wheel; and the second delay wheel is provided with an arc-shaped groove for the movement of the occlusion convex block.

The invention relates to a business card scanning automatic paper feed mechanism, wherein the surface of a business card supporting plate is provided with a left limiting stop strip and a right limiting stop strip for limiting the stacked business cards; the lower end of at least one of the left limiting stop strip and the right limiting stop strip is vertically connected with a sliding strip; the business card supporting plate is provided with a sliding groove matched with the sliding strip.

The invention has the beneficial effects that: the name card is stacked on the name card supporting plate, the stacked name cards are pushed into the position between the name card shaft and the elastic pressing component, the name cards are pressed and held by the elastic force of the elastic pressing component, when the name cards are fed, the name card shaft rotates to convey the name cards which are in contact with the name card shaft to a position between the driven wheel and the paper taking wheel, the number of the name cards which are fed once is guaranteed by the size of a gap between the paper separating block and the driven wheel, the structure is greatly simplified, and the stacked name cards can be accommodated and continuously fed into the paper feeding channel.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be further described with reference to the accompanying drawings and embodiments, wherein the drawings in the following description are only part of the embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive efforts according to the accompanying drawings:

FIG. 1 is a diagram illustrating the effect of the paper feeding path and the card feeding path of the card scanning automatic paper feeding mechanism in accordance with the preferred embodiment of the present invention;

FIG. 2 is a sectional view of the card scanning automatic document feeder according to the preferred embodiment of the present invention;

FIG. 3 is an exploded view of the card supporting plate and the paper separating mechanism of the card scanning automatic paper feeding mechanism in accordance with the preferred embodiment of the present invention;

FIG. 4 is an assembly view of the name card supporting plate and the paper separating mechanism of the name card scanning automatic paper feeding mechanism in accordance with the preferred embodiment of the present invention;

FIG. 5 is an exploded view of the name card shaft, the first delay wheel and the second delay wheel of the name card scanning automatic document feeder according to the preferred embodiment of the present invention;

fig. 6 is an exploded view of the first delay wheel and the second delay wheel of the automatic document feeder for name card scanning according to the preferred embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the following will clearly and completely describe the technical solutions in the embodiments of the present invention, and it is obvious that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without inventive step, are within the scope of the present invention.

The automatic paper feeding mechanism for scanning business cards of the preferred embodiment of the invention is shown in fig. 1, and also refers to fig. 2-6, and comprises a U-shaped paper feeding channel 1 for feeding paper, and a business card feeding channel 2 located at the rear side of the paper feeding channel 1; a paper taking wheel 10 and a driven wheel 11 driven by the paper taking wheel to clamp and take paper are arranged at the U-shaped bottom part of the paper feeding channel 1; the driven wheel 11 is close to the name card feed channel 2; the business card feeding channel 2 feeds the business card between the paper taking wheel 10 and the driven wheel 11, and the paper feeding channel 1 feeds the business card; a business card supporting plate 3 for stacking business cards is arranged at the front end of the business card feeding channel 2, and a paper separating mechanism for separating the business cards is arranged at the position of the business card feeding channel 2; the paper separating mechanism comprises a name card shaft 40 for driving the name cards to advance in the name card feeding channel 2, an elastic pressing component 41 which is matched with the name card shaft 40 to press and hold the stacked name cards, and a paper separating block 42; the paper separating block 42 and the driven wheel 11 have a gap 6 for controlling the passing number of the business cards;

after the business cards are stacked on the business card supporting plate 3, the stacked business cards are pushed into a position between the business card shaft 40 and the elastic pressing component 41 and are pressed and held by the elastic force of the elastic pressing component 41, when the business cards are fed, the business cards contacted with the business cards are conveyed between the driven wheel 11 and the paper taking wheel 10 by the rotation of the business card shaft 40, the quantity of the business cards conveyed at one time is ensured by the size of a gap 6 between the paper separating block 42 and the driven wheel 11, the structure is greatly simplified, and the whole stack of business cards can be accommodated and continuously fed into a paper feeding channel;

preferably, the size of the gap 6 ensures that one business card is sent each time; the distance between the business card axis 40 and the gap 6 is less than the height or length of a business card.

Preferably, the elastic pressing component 41 is positioned below the name card shaft 40; the elastic pressing component 41 comprises a longitudinal spring 410, the top of the longitudinal spring 410 is provided with a top block 411 which is matched with the name card shaft 40 to clamp the stacked name cards, and the lower part of the longitudinal spring 410 is fixedly connected with the scanner shell 5; the structure is simple, and the name cards at the top of the whole stack of name cards can be kept to have extrusion acting force with the name card shaft 40 when the name cards are continuously fed.

Preferably, the scanner housing 5 is provided with a guide post 50 located inside the longitudinal spring 410 for guiding the movement thereof; the stability is good.

Preferably, both sides of the top block 411 are provided with side plates 4110, and the lower surfaces of the side plates 4110 are provided with flanges 4111; a rail 51 surrounding the guide post 50 is arranged on the scanner housing 5, and the opposite side surfaces of the two flanges 4111 are attached to the outer side surfaces of the rail 51; by virtue of the two flanges 4111 abutting against the outer side surfaces of the rail 51, guidance is provided when the top block 411 moves longitudinally, improving stability.

Preferably, the paper dividing block 42 is n-shaped, and the business card shaft 40 passes through the n-shaped inner area of the paper dividing block 42; the lower surface of one n-type longitudinal side of the paper separating block 42 is provided with a slope 420, a gap is reserved between the lower end of the slope 420 and the driven wheel 11, and the other n-type longitudinal side of the paper separating block 42 is provided with an opening corresponding to the top block 411; the assembled structure has small volume and good stability, and greatly simplifies the structure.

Preferably, hooks 421 are arranged on two sides of the longitudinal edge of the paper separating block 42 provided with the opening, and the hooks 421 are hung on the bottom end of the business card baffle 3; the split paper blocks and the business card baffle are positioned conveniently during assembly, so that the assembly is simplified.

Preferably, the outer surface of the longitudinal side of the slope 420 of the paper dividing block 42 is provided with a plurality of paper guide strips 422 which cooperate with the paper feeding path 1 to guide paper; the number of components required to form the sheet feeding path 1 is reduced, and the structure is further simplified.

Preferably, a driving motor for driving the name card shaft 40 to rotate is further included.

Preferably, the first delay wheel 400 is disposed on the name card shaft 40; the device also comprises a second delay wheel 401, wherein the second delay wheel 401 is driven by a driving motor to rotate; the non-axial center position of the first delay wheel 400 is provided with an engaging lug 4000; the second delay wheel 401 is provided with an arc groove 4010 for the movement of the occlusion convex block 4000; the business card shaft has a certain idle rotation amount, so that the whole stack of business cards can be conveniently placed between the elastic pressing and holding component 41 and the business card shaft 40;

preferably, the driving motor drives the second delay wheel 401 to rotate through the synchronous belt 7.

Preferably, the surface of the business card supporting plate 3 is provided with a left limiting stop bar 30 and a right limiting stop bar 31 for limiting the stacked business cards; the lower ends of at least one of the left limiting stop strip 30 and the right limiting stop strip 31 are vertically connected with a sliding strip 310; the business card supporting plate 3 is provided with a chute 32 matched with the sliding strip 310; the distance between the left limiting baffle strip 30 and the right limiting baffle strip 31 can be conveniently adjusted to adapt to the placement of business cards with different widths;

preferably, the slide bar 310 and the slide groove 32 are positioned by static friction therebetween.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are intended to be included within the scope of the invention as defined in the appended claims.

Claims

1. The name card scanning automatic paper feed mechanism is characterized by comprising a U-shaped paper feed channel for feeding paper, and a name card feed channel positioned at the rear side of the paper feed channel; a paper taking wheel and a driven wheel driven by the paper taking wheel to clamp and take paper are arranged at the U-shaped bottom of the paper feeding channel; the driven wheel is close to the name card feeding channel; the business card feeding channel feeds the business card between the paper taking wheel and the driven wheel, and the paper feeding channel feeds the business card; a business card supporting plate for stacking the business cards is arranged at the front end of the business card feeding channel, and a paper separating mechanism for separating the paper of the business cards is arranged at the position of the business card feeding channel; the paper separating mechanism comprises a name card shaft for driving the name card to advance in the name card feeding channel, an elastic pressing component matched with the name card shaft for pressing and holding the stacked name cards, and a paper separating block; and a gap for controlling the passing number of the business cards exists between the paper separating block and the driven wheel.

2. The business card scanning automatic sheet feed mechanism of claim 1 wherein the resilient hold down assembly is located below the business card shaft; the elastic pressing and holding assembly comprises a longitudinal spring, the top of the longitudinal spring is provided with a top block which is matched with a name card shaft to clamp and stack the name card, and the lower part of the longitudinal spring is fixedly connected with the scanner shell.

3. The business card scanning automatic sheet feed mechanism of claim 2 wherein said scanner housing is provided with guide posts located within said longitudinal spring to guide movement thereof.

4. The business card scanning automatic paper feed mechanism of claim 2 wherein the top block is provided with side plates on both sides, the lower surfaces of the side plates being provided with flanges; the scanner shell is provided with a fence arranged outside the guide post in a surrounding mode, and the surface of one side, opposite to the flange, of each flange is attached to the surface of the outer side of the fence.

5. The business card scanning automatic paper feed mechanism of claim 2, wherein the paper separating block is n-shaped, and the business card shaft passes through an n-shaped inner area of the paper separating block; the lower surface of one vertical limit of the n type of branch paper piece is provided with the slope, and the lower extreme on slope and follow driving wheel have the clearance, be provided with on another vertical limit of the n type of branch paper piece with the opening that the kicking block corresponds.

6. The automatic paper feed mechanism for business card scanning of claim 5 wherein hooks are provided on both sides of the longitudinal edge of the paper separating block provided with the opening, the hooks being hung on the bottom end of the business card baffle.

7. The business card scanning automatic paper feed mechanism of claim 5, wherein the outer side surface of the longitudinal side of the paper separating block provided with the slope is provided with a plurality of paper guide strips which cooperate with the paper feed channel to guide paper.

8. The business card scanning automatic sheet feed mechanism of claim 1, further comprising a drive motor for driving the business card shaft to rotate.

9. The business card scanning automatic paper feed mechanism of claim 8, wherein the business card shaft is provided with a first delay wheel; the second time delay wheel is driven by the driving motor to rotate; an occlusion convex block is arranged at the non-axial center position of the first delay wheel; and the second delay wheel is provided with an arc-shaped groove for the movement of the occlusion convex block.

10. The automatic paper feeding mechanism for business card scanning of claim 1, wherein the surface of the business card supporting plate is provided with a left limit stop bar and a right limit stop bar for limiting the stacked business cards; the lower end of at least one of the left limiting stop strip and the right limiting stop strip is vertically connected with a sliding strip; the business card supporting plate is provided with a sliding groove matched with the sliding strip.