CN112895744B

CN112895744B - Page number machine capable of dialing in forward placement and code printing method thereof

Info

Publication number: CN112895744B
Application number: CN202110074967.4A
Authority: CN
Inventors: 李志华; 王超群; 傅东金; 樊志华
Original assignee: Hangzhou Dianzi University
Current assignee: Hangzhou Dianzi University
Priority date: 2021-01-20
Filing date: 2021-01-20
Publication date: 2022-05-31
Anticipated expiration: 2041-01-20
Also published as: CN112895744A

Abstract

The invention discloses a page number machine for forward placement dialing and a code printing method thereof. The existing page number machine is labor-consuming in dialing and has high error probability. The digital printing press comprises a knob, a driving shaft bevel gear, a transmission shaft top bevel gear, a transmission shaft, a transverse horizontal shaft, a shifting shaft, a first shifting gear, a digital printing disc, a second shifting gear, a first sliding sleeve, a second sliding sleeve, a transmission shaft tail end bevel gear, a driven shaft gear, a shaft sleeve, a spring, a mirror surface, a longitudinal horizontal shaft, a driven shaft, a first pressing connecting piece, a second pressing connecting piece, a shell, a pressing plate and a transmission gear. The invention does not need to use a stirring rod, and can be adjusted by driving each gear to transmit through the knob, thereby saving more labor; when the number is adjusted, the whole device does not need to be inverted, and the device can be adjusted by being directly arranged, so that the device is more suitable for human-computer interaction; the numbers seen through the mirror surface are positive, visual obstruction can not be caused to users, and errors are reduced.

Description

Page number machine capable of dialing in forward placement and code printing method thereof

Technical Field

The invention relates to a page numbering machine, in particular to a page numbering machine which does not need to be inverted for adjustment of a number, is placed in a forward direction for dialing and is convenient for reading, and a code printing method thereof.

Background

The present page numbering machine is a common office supply used in document processing and bill processing of enterprises, public institutions, institutions and the like, and the existing page numbering machine adopts a form of combining a dialing rod and a dialing plate to dial and adjust. When the number needs to be modified, the combination mode needs to invert the whole page number machine, then the numbers on the dial plate are adjusted by using the dialing rod, time and labor are consumed, the numbers seen by a user are mirrored (reversed), the efficiency is influenced, and the error probability is increased. Based on the situation, the demand is that the page number machine which is convenient to use, not easy to make mistakes and capable of modifying numbers without inversion is designed.

Disclosure of Invention

The invention aims to provide a page numbering machine and a code printing method thereof, which are convenient for office staff to process document bills, and realize quick and convenient dialing adjustment of the page numbering machine.

The technical scheme adopted by the invention is as follows:

the invention relates to a page numbering machine for dialing in a forward placing mode, which comprises a knob, a driving shaft bevel gear, a transmission shaft top bevel gear, a transmission shaft, a transverse horizontal shaft, a shifting shaft, a first shifting gear, a digital code disc, a second shifting gear, a first sliding sleeve, a second sliding sleeve, a transmission shaft tail end bevel gear, a driven shaft gear, a shaft sleeve, a spring, a mirror surface, a longitudinal horizontal shaft, a driven shaft, a first pressing connecting piece, a second pressing connecting piece, a shell, a pressing plate and a transmission gear, wherein the knob is arranged on the transmission shaft; the mirror surface is fixed at the bottom of the shell; the driving shaft and the shell form a revolute pair; the knob is fixed with the driving shaft and penetrates through the notch at the top of the shell; the space between the bevel gears of the three driving shafts is fixed on the driving shaft; two longitudinal horizontal shafts are fixed in the shell at intervals, and each longitudinal horizontal shaft and one second sliding sleeve form a sliding pair; the two second sliding sleeves are respectively fixed with two ends of the transverse horizontal shaft; one end of the first sliding sleeve and the transverse horizontal shaft form a sliding pair, and the other end of the first sliding sleeve is fixed to the middle of the vertically arranged transmission shaft; the longitudinal horizontal shaft and the transverse horizontal shaft are vertically arranged and are both horizontally arranged; the transverse horizontal shaft is arranged in parallel with the driving shaft; the bevel gear at the top end of the transmission shaft is fixed at the top end of the transmission shaft and is meshed with one of the driving shaft bevel gears; the bevel gear at the tail end of the transmission shaft is fixed at the lower end of the transmission shaft; the driven shaft is arranged in parallel with the transverse horizontal shaft, and two ends of the driven shaft and two vertical grooves formed in the shell respectively form sliding pairs; the two first pressing connecting pieces are arranged at intervals, one ends of the two first pressing connecting pieces are fixed with the driven shaft, and the other ends of the two first pressing connecting pieces and a sliding groove on one second pressing connecting piece form a sliding pair; one ends of the two second pressing connecting pieces are hinged with the shell and are connected with the shell through springs; the other ends of the two second pressing connecting pieces are respectively fixed with the two ends of the pressing plate; the three driven shaft gears are arranged at intervals and supported on the driven shaft through bearings; the driven shaft gear consists of a driven shaft bevel gear and a driven shaft straight gear which are fixed together; the bevel gear at the tail end of the transmission shaft is meshed with a driven shaft bevel gear of one driven shaft gear; the three toggle shafts are arranged at intervals and form a revolute pair with the shell; the shifting shaft and the driven shaft are arranged in parallel; each shifting shaft is fixedly provided with a transmission gear and a first shifting gear; driven shaft straight gears of the three driven shaft gears are respectively meshed with the three transmission gears; the shaft sleeve is fixed on the driven shaft; the three second toggle gears are arranged side by side and form a revolute pair with the shaft sleeve; each second toggle gear is fixed with one digital code disc; the digital code printing disc is sleeved on the shaft sleeve in a hollow way; each second toggle gear is meshed with one first toggle gear; the bottom of the shell is provided with a code printing through groove.

Preferably, the shell consists of a top plate, side plates and a bottom plate; the top plate is fixed on the bottom plate through two side plates.

Preferably, the mirror plane is at an angle of 15 ° to the horizontal.

Preferably, the mirror surface is provided with two scale marks arranged at intervals.

The code printing method of the page number machine for forward dialing comprises the following specific steps:

and step one, if the digital code disc needs to be rotated, jumping to step two to start execution, otherwise, jumping to step four to start execution.

Moving the transverse horizontal shaft outwards, and moving the transmission shaft leftwards and rightwards so that a bevel gear at the top end of the transmission shaft and a bevel gear at the tail end of the transmission shaft are respectively aligned with a driving shaft bevel gear and a driven shaft gear corresponding to the digital code printing disc to be rotated; then, moving the transverse horizontal shaft inwards to enable the bevel gear at the top end of the transmission shaft and the bevel gear at the tail end of the transmission shaft to be respectively meshed with the driving shaft bevel gear and the driven shaft gear corresponding to the digital code printing disc to be rotated; then, the rotary knob drives the driving shaft to rotate, and the power of the driving shaft drives the digital printing disc through a driving shaft bevel gear, a transmission shaft top bevel gear, a transmission shaft tail end bevel gear, a driven shaft gear, a transmission gear, a shifting shaft, a first shifting gear and a second shifting gear in sequence; and after the mirror surface determines that the numbers to be printed at the bottom of the rotated digital printing disc are accurate, stopping rotating the knob.

And step three, if a digital code disc needing to be rotated exists, repeating the step two, otherwise, executing the step four.

Placing the shell on the bill or the document, wherein the code printing through groove of the shell is aligned to the code printing position required by the bill or the document; then, the pressing plate is pressed downwards, the second pressing connecting piece swings downwards to drive the first pressing connecting piece to slide along the sliding groove of the second pressing connecting piece, and further drive the driven shaft to vertically slide downwards along the two vertical grooves formed in the shell, so that the digital code printing discs penetrate through the code printing through grooves of the shell, and the numbers of the digital code printing discs are printed on bills or files; and finally, the pressing plate is loosened, and the second pressing connecting piece drives the first pressing connecting piece, the driven shaft and the digital printing disc to reset under the action of the elastic force of the spring.

Preferably, before executing step four, the following steps are executed: covering the inkpad with the inkpad through groove of the shell; then, the pressing plate is pressed downwards, the second pressing connecting piece swings downwards to drive the first pressing connecting piece to slide along the sliding groove of the second pressing connecting piece, and further drive the driven shaft to vertically slide downwards along the two vertical grooves formed in the shell, so that the digital ink code disc penetrates through the ink code through groove of the shell and is attached with ink paste; and finally, the pressing plate is loosened, and the second pressing connecting piece drives the first pressing connecting piece, the driven shaft and the digital printing disc to reset under the action of the elastic force of the spring.

The invention has the following beneficial effects:

(1) the invention can adjust the number without inverting the whole device, and can adjust the number by directly rightly arranging the device, thereby being more in line with human-computer interaction.

(2) The invention can be adjusted by directly using a knob without using a dialing rod when adjusting the number, thereby saving more labor.

(3) When the invention is used for adjusting the number, the number seen through the mirror surface is positive, thus visual obstruction can not be caused to users, and errors are reduced.

(4) When the invention is used for adjusting the number, the adjustment of different digit numbers can be realized only by moving one transmission shaft.

(5) The invention can achieve the purpose of adjusting the number efficiently and laborsavingly by reasonably designing the transmission ratio of each gear.

Drawings

FIG. 1 is a rear view of the construction of the page machine of the present invention;

FIG. 2 is a schematic front view of the page machine of the present invention;

FIG. 3 is a three-dimensional perspective view of the page machine of the present invention;

FIG. 4 is a perspective view of the three-dimensional structure of the present invention with one side panel removed;

FIG. 5 is a schematic view of the assembly of the second toggle gear and the digital code disc of the present invention;

in the figure: 1. knob, 2, driving shaft, 3, driving shaft bevel gear, 4, transmission shaft top bevel gear, 5, transmission shaft, 6, horizontal axis, 7, shifting shaft, 8, first shifting gear, 9, digital ink disc, 10, second shifting gear, 11, first sliding sleeve, 12, second sliding sleeve, 13, transmission shaft end bevel gear, 14, driven shaft gear, 15, shaft sleeve, 16, spring, 17, mirror surface, 18, horizontal axis, 19, driven shaft, 20, first pressing connecting piece, 21, second pressing connecting piece, 22, top plate, 23, side plate, 24, bottom plate, 25 pressing plate, 26, transmission gear.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

As shown in fig. 1, 2, 3, 4 and 5, a page number machine for forward dialing comprises a knob 1, a driving shaft 2, a driving shaft bevel gear 3, a transmission shaft top bevel gear 4, a transmission shaft 5, a transverse horizontal shaft 6, a dialing shaft 7, a first dialing gear 8, a digital printing disc 9, a second dialing gear 10, a first sliding sleeve 11, a second sliding sleeve 12, a transmission shaft tail end bevel gear 13, a driven shaft gear 14, a shaft sleeve 15, a spring 16, a mirror surface 17, a longitudinal horizontal shaft 18, a driven shaft 19, a first pressing connecting piece 20, a second pressing connecting piece 21, a shell, a pressing plate 25 and a transmission gear 26; the mirror surface 17 is fixed at the bottom of the shell; the driving shaft 2 and the shell form a revolute pair; the knob 1 is fixed with the driving shaft 2 and penetrates through a notch in the top of the shell; three driving shaft bevel gears 3 are fixed on the driving shaft 2 at intervals; two longitudinal horizontal shafts 18 are fixed in the shell at intervals, and each longitudinal horizontal shaft 18 and one second sliding sleeve 12 form a sliding pair; the two second sliding sleeves 12 are respectively fixed with two ends of the transverse horizontal shaft 6; one end of the first sliding sleeve 11 and the transverse horizontal shaft 6 form a sliding pair, and the other end of the first sliding sleeve is fixed with the middle part of the vertically arranged transmission shaft 5; the longitudinal horizontal shaft 18 and the transverse horizontal shaft 6 are arranged vertically and are both arranged horizontally; the transverse horizontal shaft 6 is arranged in parallel with the driving shaft 2; the transmission shaft top bevel gear 4 is fixed at the top end of the transmission shaft 5 and is meshed with one of the driving shaft bevel gears 3; a transmission shaft tail end bevel gear 13 is fixed at the lower end of the transmission shaft 5; the driven shaft 19 is arranged in parallel with the transverse horizontal shaft 6, and two ends of the driven shaft and two vertical grooves formed in the shell respectively form sliding pairs; the two first pressing connecting pieces 20 are arranged at intervals, one ends of the two first pressing connecting pieces are fixed with the driven shaft 19, and the other ends of the two first pressing connecting pieces and a sliding groove on one second pressing connecting piece 21 form a sliding pair; one end of each of the two second pressing connecting pieces 21 is hinged with the shell, and is connected with the shell through a spring 16; the other ends of the two second pressing connecting pieces 21 are respectively fixed with the two ends of the pressing plate 25; the three driven shaft gears 14 are arranged at intervals and are supported on a driven shaft 19 through bearings; the driven shaft gear 14 consists of a driven shaft bevel gear and a driven shaft spur gear which are fixed together; the bevel gear 13 at the tail end of the transmission shaft is meshed with a driven shaft bevel gear of one driven shaft gear 14; the three shifting shafts 7 are arranged at intervals and form a revolute pair with the shell; the shifting shaft 7 is arranged in parallel with the driven shaft 19; each shifting shaft 7 is fixedly provided with a transmission gear 26 and a first shifting gear 8; the driven shaft spur gears of the three driven shaft gears 14 are respectively meshed with the three transmission gears 26; the shaft sleeve 15 is fixed on the driven shaft 19; the three second toggle gears 10 are arranged side by side and form a revolute pair with the shaft sleeve 15; each second toggle gear 10 is fixed with one digital code disc 9; the digital code disc 9 is sleeved on the shaft sleeve 15; each second toggle gear 10 is meshed with one first toggle gear 8; the bottom of the shell is provided with a code printing through groove, so that the digital code printing disc 9 can print codes through the code printing through groove.

As a preferred embodiment, as shown in fig. 3, the housing is composed of a top plate 22, side plates 23, and a bottom plate 24; the top plate 22 is secured to the bottom plate 24 by two side plates 23.

As a preferred embodiment, the mirror 17 is at an angle of 15 to the horizontal as shown in FIG. 4.

As a preferred embodiment, the mirror surface is provided with two scale marks arranged at intervals, the number between the two scale marks is the number to be printed at the bottom of the digital printing code disc 9, when the user adjusts the number, the user only needs to look at the mirror surface to see the number to be printed at the bottom of the digital printing code disc 9, and the number on the mirror surface is forward rather than inverted, so that the action of misreading is not easy to occur.

and step one, if the digital code disc 9 needs to be rotated, jumping to step two to start execution, otherwise, jumping to step four to start execution.

Moving the transverse horizontal shaft 6 outwards, and moving the transmission shaft 5 leftwards and rightwards so that the bevel gear 4 at the top end of the transmission shaft and the bevel gear 13 at the tail end of the transmission shaft are respectively aligned with the driving shaft bevel gear 3 and the driven shaft gear 14 corresponding to the digital printing disc 9 to be rotated; then, moving the transverse horizontal shaft 6 inwards to enable the bevel gear 4 at the top end of the transmission shaft and the bevel gear 13 at the tail end of the transmission shaft to be meshed with the driving shaft bevel gear 3 and the driven shaft gear 14 corresponding to the digital code disc 9 to be rotated respectively; then, the knob 1 is rotated to drive the driving shaft 2 to rotate, and the power of the driving shaft 2 drives the digital printing disc 9 through a driving shaft bevel gear 3, a transmission shaft top bevel gear 4, a transmission shaft 5, a transmission shaft tail end bevel gear 13, a driven shaft gear 14, a transmission gear 26, a shifting shaft 7, a first shifting gear 8 and a second shifting gear 10 in sequence; and after the mirror surface determines that the numbers to be printed at the bottom of the rotated digital printing disc 9 are accurate, stopping rotating the knob 1.

And step three, if a digital code disc 9 needing to be rotated exists, repeating the step two, otherwise, executing the step four.

Placing the shell on the bill or the document, wherein the code printing through groove of the shell is aligned to the code printing position required by the bill or the document; then, when the pressing plate is pressed downwards, the second pressing connecting piece 21 swings downwards to drive the first pressing connecting piece 20 to slide along the sliding groove of the second pressing connecting piece, and further drive the driven shaft 19 to vertically slide downwards along two vertical grooves formed in the shell, so that the digital code printing discs 9 penetrate through the code printing through grooves of the shell, and the numbers of the digital code printing discs 9 are printed on bills or files; finally, the pressing plate is released, and the second pressing connecting piece 21 drives the first pressing connecting piece 20, the driven shaft 19 and the digital ink disc 9 to reset under the action of the spring elasticity.

As a preferred embodiment, before performing step four, the following steps are performed: covering the inkpad with the inkpad through groove of the shell; then, when the pressing plate is pressed downwards, the second pressing connecting piece 21 swings downwards to drive the first pressing connecting piece 20 to slide along the sliding groove of the second pressing connecting piece, and further drive the driven shaft 19 to vertically slide downwards along two vertical grooves formed in the shell, so that the digital code printing disc 9 penetrates through the code printing through groove of the shell and is attached with ink paste; finally, the pressing plate is released, and the second pressing connecting piece 21 drives the first pressing connecting piece 20, the driven shaft 19 and the digital ink disc 9 to reset under the action of the spring elasticity.

Claims

1. The utility model provides a page number machine of dialing is placed to forward, includes driven shaft, first pressing the connecting piece, the second presses connecting piece, casing and presses the pressure board, its characterized in that: the device also comprises a knob, a driving shaft bevel gear, a transmission shaft top bevel gear, a transmission shaft, a transverse horizontal shaft, a shifting shaft, a first shifting gear, a digital printing disc, a second shifting gear, a first sliding sleeve, a second sliding sleeve, a transmission shaft tail end bevel gear, a driven shaft gear, a shaft sleeve, a spring, a mirror surface, a longitudinal horizontal shaft and a transmission gear; the mirror surface is fixed at the bottom of the shell; the driving shaft and the shell form a revolute pair; the knob is fixed with the driving shaft and penetrates through the notch at the top of the shell; the space between the bevel gears of the three driving shafts is fixed on the driving shaft; two longitudinal horizontal shafts are fixed in the shell at intervals, and each longitudinal horizontal shaft and one second sliding sleeve form a sliding pair; the two second sliding sleeves are respectively fixed with two ends of the transverse horizontal shaft; one end of the first sliding sleeve and the transverse horizontal shaft form a sliding pair, and the other end of the first sliding sleeve is fixed to the middle of the vertically arranged transmission shaft; the longitudinal horizontal shaft and the transverse horizontal shaft are vertically arranged and are both horizontally arranged; the transverse horizontal shaft is arranged in parallel with the driving shaft; the bevel gear at the top end of the transmission shaft is fixed at the top end of the transmission shaft and is meshed with one of the driving shaft bevel gears; the bevel gear at the tail end of the transmission shaft is fixed at the lower end of the transmission shaft; the driven shaft is arranged in parallel with the transverse horizontal shaft, and two ends of the driven shaft and two vertical grooves formed in the shell respectively form sliding pairs; the two first pressing connecting pieces are arranged at intervals, one ends of the two first pressing connecting pieces are fixed with the driven shaft, and the other ends of the two first pressing connecting pieces and a sliding groove on one second pressing connecting piece form a sliding pair; one ends of the two second pressing connecting pieces are hinged with the shell and are connected with the shell through springs; the other ends of the two second pressing connecting pieces are respectively fixed with the two ends of the pressing plate; the three driven shaft gears are arranged at intervals and are supported on the driven shaft through bearings; the driven shaft gear consists of a driven shaft bevel gear and a driven shaft straight gear which are fixed together; the bevel gear at the tail end of the transmission shaft is meshed with a driven shaft bevel gear of one driven shaft gear; the three toggle shafts are arranged at intervals and form a revolute pair with the shell; the shifting shaft and the driven shaft are arranged in parallel; each shifting shaft is fixedly provided with a transmission gear and a first shifting gear; driven shaft straight gears of the three driven shaft gears are respectively meshed with the three transmission gears; the shaft sleeve is fixed on the driven shaft; the three second toggle gears are arranged side by side and form a revolute pair with the shaft sleeve; each second toggle gear is fixed with one digital code printing disc; the digital code printing disc is sleeved on the shaft sleeve in a hollow way; each second toggle gear is meshed with one first toggle gear; the bottom of the shell is provided with a code printing through groove.

2. A forward placement dialing pager as in claim 1 further comprising: the shell consists of a top plate, side plates and a bottom plate; the top plate is fixed on the bottom plate through the two side plates.

3. A forward placement dialing pager as in claim 1 further comprising: the mirror surface and the horizontal plane form an angle of 15 degrees.

4. A forward placement dialing pager as in claim 1 further comprising: the mirror surface is provided with two scale marks arranged at intervals.

5. A method for printing codes on a forward placement dial page machine according to any of claims 1 to 4, characterized in that: the method comprises the following specific steps:

step one, if the digital code disc needs to be rotated, jumping to step two to start execution, otherwise jumping to step four to start execution;

moving the transverse horizontal shaft outwards, and moving the transmission shaft leftwards and rightwards so that a bevel gear at the top end of the transmission shaft and a bevel gear at the tail end of the transmission shaft are respectively aligned with a driving shaft bevel gear and a driven shaft gear corresponding to the digital code printing disc to be rotated; then, moving the transverse horizontal shaft inwards to enable the bevel gear at the top end of the transmission shaft and the bevel gear at the tail end of the transmission shaft to be respectively meshed with the driving shaft bevel gear and the driven shaft gear corresponding to the digital ink pad needing to be rotated; then, the rotary knob drives the driving shaft to rotate, and the power of the driving shaft drives the digital printing disc through a driving shaft bevel gear, a transmission shaft top bevel gear, a transmission shaft tail end bevel gear, a driven shaft gear, a transmission gear, a shifting shaft, a first shifting gear and a second shifting gear in sequence; after the mirror surface determines that the numbers to be printed at the bottom of the rotated digital printing disc are accurate, stopping rotating the knob;

step three, if a digital code disc needing to be rotated exists, repeating the step two, otherwise, executing the step four;

6. The method for printing a forward placement dialing page number machine as recited in claim 5, wherein: before the fourth step is executed, the following steps are executed: covering the inkpad with the inkpad through groove of the shell; then, the pressing plate is pressed downwards, the second pressing connecting piece swings downwards to drive the first pressing connecting piece to slide along the sliding groove of the second pressing connecting piece, and further drive the driven shaft to vertically slide downwards along the two vertical grooves formed in the shell, so that the digital ink code disc penetrates through the ink code through groove of the shell and is attached with ink paste; and finally, the pressing plate is loosened, and the second pressing connecting piece drives the first pressing connecting piece, the driven shaft and the digital printing disc to reset under the action of the elastic force of the spring.