CN109124445B

CN109124445B - Control device for controlling paper discharge based on paper surface broken seam recognition and roll paper suitable for same

Info

Publication number: CN109124445B
Application number: CN201810878803.5A
Authority: CN
Inventors: 谢火县
Original assignee: Shenzhen Smarlean Hygiene Co ltd
Current assignee: Shenzhen Smarlean Hygiene Co ltd
Priority date: 2018-08-03
Filing date: 2018-08-03
Publication date: 2021-02-12
Anticipated expiration: 2038-08-03
Also published as: CN109124445A

Abstract

The invention discloses a control device for controlling paper outlet based on paper surface broken seam recognition and roll paper suitable for the same, comprising: the device comprises a human body sensor, a broken seam recognition sensor and a driving device; the human body sensor is used for sensing a human body so as to control the driving device to drive the roll paper to discharge paper; and the identification broken seam sensor is used for sensing the identification broken seam on the paper surface of the roll paper so as to control the driving device to stop working. And the paper surface of the roll paper is provided with an identification broken seam which enables the identification broken seam sensor to receive an induction signal. The invention identifies the broken seam on the paper surface of the roll paper by arranging the broken seam identification sensor so as to realize the control of the paper outlet length of the paper surface of the roll paper; the electric paper towel machine structure arranged in the mode only needs a paper discharging driving structure, so that a paper tearing structure is omitted; the structure is simple and compact, the cost is reduced, and meanwhile, the paper tearing is torn from the paper surface broken seam, so the paper tearing becomes orderly.

Description

Control device for controlling paper discharge based on paper surface broken seam recognition and roll paper suitable for same

Technical Field

The invention relates to the technical field of living goods devices, in particular to a control device for controlling paper outlet based on paper surface broken seam recognition and roll paper suitable for the control device.

Background

Toilet paper roll is one of the most commonly used paper towels in people's lives. With the continuous development of science and technology, the paper delivery mode is changed from the original manual mode to the automatic mode. The automatic paper output is realized mainly by an electric paper towel machine.

In the conventional paper output method of the electric paper towel machine, a paper surface is generally driven by a driving roller and a paper pressing roller, and the paper surface is output from a paper output port. The paper-out length control is generally realized in two modes, one mode is to control the paper-out working time, and the other mode is to control the rotation turns of the driving roller. The paper tearing structure is used for tearing paper after paper is discharged. The paper towel machine with the structure is composed of a paper outlet driving structure and a paper tearing structure, and is complex in structure, high in cost, large in size and not neat enough in paper tearing.

Disclosure of Invention

The invention aims to solve the defects of complex structure, high cost, insufficient paper tearing uniformity and the like of the conventional electric paper towel machine, and provides a control device for controlling paper outlet based on paper surface broken seam recognition and roll paper suitable for the control device.

In order to achieve the purpose, the invention adopts the following technical scheme:

control device based on paper breaking recognition control goes out paper, it includes: the device comprises a human body sensor, a broken seam recognition sensor and a driving device;

the human body sensor is used for sensing a human body so as to control the driving device to drive the roll paper to discharge paper;

and the identification broken seam sensor is used for sensing the identification broken seam on the paper surface of the roll paper so as to control the driving device to stop working.

Further, the paper-out sensor is further included and is used for identifying whether the paper outlet is out of paper or not so as to control the human body sensor to be in a working state or a non-working state.

Further explaining, the paper guide device further comprises a paper guide plate, the paper guide plate is arranged along the direction that the driving device drives the roll paper to output paper, the driving device rotates the paper surface taken out to output paper along the paper guide plate, and the paper head of the roll paper is output from the paper output port of the paper guide plate.

Further, the paper guide plate is of an arc-shaped plate structure, the head end of the paper guide plate is hinged to the tail end of the paper pressing plate of the driving device, and the paper guide plate swings back and forth by taking a hinged point as an axis.

Further, the paper guide plate is provided with a lacking hole, and the paper lacking inductor corresponds to the lacking hole; the paper-out sensor comprises a paper-out transmitting tube and a paper-out receiving tube, wherein the paper-out transmitting tube is connected with the paper-out receiving tube through a paper-out ray signal.

Further explaining, the device also comprises a broken seam sensor which is electrically connected with the driving device; the broken seam sensor and the identification broken seam sensor are arranged in parallel, and the broken seam sensor is positioned at the front end of the driving device; the broken seam sensor comprises a broken seam transmitting tube and a broken seam receiving tube, and the broken seam transmitting tube is connected with the broken seam receiving tube through a broken seam transmitting signal; the fracture transmitting tube and the fracture receiving tube are respectively positioned on two sides of the paper surface.

Further, the driving device includes a driving roller and a paper pressing plate; the paper pressing plate presses the paper surface on the driving roller, and the paper surface is discharged under the action of rotation of the driving roller.

Further explaining, the identification broken joint sensor is arranged at the front end of the driving device and comprises an identification transmitting tube and an identification receiving tube; the identification transmitting tube is connected with the identification receiving tube through an identification ray signal; the identification transmitting tube and the identification receiving tube are respectively positioned on two sides of the paper surface.

Further explaining, the human body sensor is a human body sensor, and the human body sensor comprises a hand sensing transmitting tube and a hand sensing receiving tube; the hand induction transmitting tube is connected with the hand induction receiving tube through a hand induction ray signal.

A roll paper suitable for use in the control device described above, characterized in that: and the paper surface of the roll paper is provided with an identification broken seam which enables the identification broken seam sensor to receive an induction signal.

Further, the paper surface of the roll paper is provided with a broken seam which makes the broken seam sensor not receive the induction signal.

The invention identifies the broken seam on the paper surface of the roll paper by arranging the broken seam identification sensor so as to realize the control of the paper outlet length of the paper surface of the roll paper; the electric paper towel machine structure arranged in the mode only needs a paper discharging driving structure, so that a paper tearing structure is omitted; the structure is simple and compact, the cost is reduced, and meanwhile, the paper tearing is torn from the paper surface broken seam, so the paper tearing becomes orderly.

Drawings

FIG. 1 is a schematic block diagram of an embodiment of the present invention;

FIG. 2 is a schematic illustration of the principle of FIG. 1;

FIG. 3 is a schematic view of the structure of the paper output of FIG. 2;

FIG. 4 is a schematic view of the tear-off paper of FIG. 3;

FIG. 5 is a schematic view of different gauge seams on a sheet of paper;

fig. 6 is a schematic structural diagram of another embodiment of the present invention.

Wherein: the device comprises a human body sensor 1, a driving roller 2, a paper pressing plate 3, a roll paper body 4, a recognition broken seam sensor 5, a broken seam sensor 6, a paper guide plate 7, a paper shortage sensor 8, a hand induction transmitting tube 11, a hand induction receiving tube 12, a hand induction ray signal 13, a sensing area 14, a roll paper 41, a paper surface 42, a recognition broken seam 43, a broken seam 44, a paper head 45, a recognition transmitting tube 51, a recognition receiving tube 52, a recognition ray signal 53, a broken seam transmitting tube 61, a broken seam receiving tube 62, a broken seam ray signal 63, a hole 71, a paper outlet 72, a paper shortage transmitting tube 81, a paper shortage receiving tube 82 and a paper shortage ray signal 83.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Control device based on paper breaking recognition control goes out paper, it includes: the human body sensor 1, the identification broken seam sensor 5 and the driving device;

the human body sensor 1 is used for human body sensing to control the driving device to drive the roll paper to discharge paper;

and the identification broken seam sensor 5 is used for sensing the identification broken seam 43 on the paper surface 42 of the roll paper so as to control the driving device to stop working.

As shown in fig. 1 and fig. 2, when a human body enters the sensing area 14, the human body sensor 1 sends a driving signal to the driving device, and the driving device rotates clockwise under the driving signal, and the roll paper is ejected toward the paper exit under the driving of the driving device; the roll paper is discharged in the direction of the exit continuously with the continuous rotation of the driving device, and when the recognition gap sensor 5 senses the recognition gap 43, the recognition gap sensor 5 sends a signal for stopping the driving device, and the roll paper stops the discharge of the paper in the state that the driving device is stopped. After the roll paper stops being discharged, the paper head 45 of the roll paper is torn off by a person only by lightly tearing the paper head 45 by hand, and the paper head 45 is disconnected from the identification slit 43. According to the invention, through the arrangement of the identification broken seam sensor 5, once the identification broken seam 43 on the paper surface 42 of the roll paper passes through the identification broken seam sensor 5, the identification broken seam sensor 5 sends a command for stopping the driving device to the intelligent circuit control board, the driving device is controlled to stop working through the intelligent circuit control board, so that the roll paper is in a paper-out stopping state, and the paper-out length of the roll paper is further controlled. The paper-out length of the roll paper is controlled by arranging the crack recognition sensor 5, and the electric paper towel machine structure arranged in this way only needs a paper-out driving structure, so that a paper-tearing structure is omitted; the structure is simple and compact, the cost is reduced, and meanwhile, the paper tearing is torn from the paper surface broken seam, so the paper tearing becomes orderly.

The paper-out sensor 8 is used for identifying whether the paper outlet is out of paper or not so as to control the human body sensor 1 to be in a working state or a non-working state.

As shown in fig. 3 and 4, when the paper absence sensor 8 does not sense the roll paper surface at the paper outlet, the paper absence sensor 8 sends a signal to enable the human body sensor 1 to be in an operating state, and when the human body sensor 1 is in the operating state, the human body sensor 1 sends a signal to drive the driving device to rotate once sensing a human body, and the driving device drives the roll paper to discharge paper; when lacking paper inductor 8 and sensing paper 42 of the stock form of exit slot, lacking paper inductor 8 can signals, makes human sensor 1 is in non-operating condition, when human sensor 1 is in non-operating condition, human sensor 1 can not send the drive even when sensing the human body drive arrangement pivoted signal, the stock form still is in non-exit slot state. Through the setting of lacking paper inductor 8 to control human sensor 1's operating condition, when avoiding that the human body carelessly gets into human sensor 1's response region under the condition that exit slot 72 has paper 42, human sensor 1 sends the drive arrangement pivoted signal drives the stock form and continues to go out paper, causes the untidy of tearing paper, still can cause the waste of paper simultaneously.

The paper guide device further comprises a paper guide plate 7, wherein the paper guide plate 7 is arranged along the direction in which the driving device drives the roll paper to go out, the driving device rotates the taken-out paper surface 42 to go out along the paper guide plate 7, and the paper head 45 of the roll paper goes out from the paper outlet 72 of the paper guide plate 7.

The paper guide plate 7 discharges the paper 42 to the paper discharge port 72 along the paper guide plate 7.

Further, the paper guide plate 7 is an arc-shaped plate structure, the head end of the paper guide plate 7 is hinged to the tail end of the paper pressing plate 3 of the driving device, and the paper guide plate 7 swings back and forth with a hinge point as an axis.

When carrying out the paper head 45 who tears stock form 4 downwards with the hand, the accessible lead cardboard 7 rearward swinging, its end forms decurrent effort simultaneously to drive the nipper 7 pushes down, makes the atress of stock form more stable unanimous, guarantees the stock form and is broken off by discernment crack 43 department, and it is easier, convenient to tear the paper.

A hole 71 is formed in the paper guide plate 7, and the paper shortage sensor 8 corresponds to the hole 71; the paper-out sensor 8 comprises a paper-out transmitting tube 81 and a paper-out receiving tube 82; the paper-out transmitting tube is connected with the paper-out receiving tube 82 through a paper-out ray signal 83.

As shown in fig. 3 and 4, when there is a paper surface 42 on the notch hole 71, the paper-out ray signal 83 emitted by the paper-out emission tube 81 hits the paper surface 42 and is reflected back to the paper-out receiving tube 82, the paper-out receiving tube 82 receives the paper-out ray signal 83, the paper-out receiving tube 82 emits a signal to make the human body sensor 1 in a non-operating state, and at this time, when the hand extends to the sensing area of the human body sensor 1, the human body sensor 1 does not emit an operating signal of the driving device, and the driving device does not rotate; when no paper surface exists at the position of the lacking hole 71, the paper-out ray signal 83 sent by the paper-out transmitting tube 81 can directly penetrate through the lacking hole 71, the paper-out ray signal 83 cannot be received by the paper-out receiving tube 82, the paper-out receiving tube 82 sends a signal to enable the human body sensor 1 to be in a working state, at the moment, when a hand extends to a sensing area of the human body sensor 1, the human body sensor 1 sends a working signal of the driving device, and the driving device can rotate.

The arrangement of the lacking hole 71 is mainly convenient for the arrangement of the paper lacking sensor 8, is convenient for sensing whether paper surface exists at the lacking hole 71 or not and is convenient for controlling the working state of the human body sensor 1; and makes the structure of the whole device more compact.

The device also comprises a broken seam inductor 6 which is electrically connected with the driving device; the broken seam sensor 6 is arranged in parallel with the broken seam recognition sensor 5, and the broken seam sensor 6 is positioned at the front end of the driving device; the broken seam inductor comprises a broken seam transmitting tube 61 and a broken seam receiving tube 62; the broken seam transmitting tube 61 is connected with the broken seam receiving tube 62 through a broken seam transmitting signal 63; the fracture transmitting tube 61 and the fracture receiving tube 62 are respectively located on two sides of the paper surface 42.

As shown in fig. 5 and 6, by using the gap sensor 6 to identify the gap 44 with different specifications, the paper output device manufactured in this way is further limited to be used for the paper meeting the specification requirement of the gap 44, so that the sales of the matched roll paper is driven by the sales of the paper output device.

Such as the break 44 for the first gauge in fig. 5; as shown in fig. 6, when the driving roller 2 rotates clockwise, the identification slit 43 on the paper surface 42 moves toward the identification slit sensor 5; when the identified broken seam 43 reaches the identified broken seam sensor 5, the position of the identified broken seam sensor 5 corresponds to the position of the identified broken seam 43, and the position of the broken seam sensor 6 corresponds to the position of the broken seam 44; the identification ray signal 53 sent by the identification transmitting tube 51 passes through the identification fracture 43, the identification receiving tube 52 receives the identification ray signal 53, and the output signal level of the identification receiving tube 52 is changed from 0 to 1; because the gap of the broken seam 44 is narrow, the broken seam ray signal 63 sent by the broken seam transmitting tube 61 cannot effectively penetrate through the broken seam 44, the broken seam receiving tube 62 cannot effectively receive the broken seam ray signal 63, and the output signal level of the broken seam receiving tube 62 cannot be changed and is still 0; if the output level of the identification receiving pipe 52 is 1 and the output level of the broken seam receiving pipe 62 is 0, the driving roller 2 delays for a period of time, so that the driving roller 2 stops rotating after the identification broken seam 43 reaches the paper guide plate 71.

Further, it is explained that the paper discharge is effectively controlled only if the output level of the identification receiver tube 52 is 1 and the output level of the broken seam receiver tube 62 is 0. The output level of the identification broken seam paper roll with other specifications cannot be satisfied that the output level of the identification receiving pipe 52 is 1, and the output level of the broken seam receiving pipe 62 is 0, so that paper discharge cannot be controlled; the roll paper that does not meet the specification of the broken seam cannot be discharged using the discharge device to effectively control the discharge of the paper.

The parallel arrangement of the broken seam sensor 6 and the broken seam recognition sensor 5 is convenient for operation and control, the broken seam sensor 6 formed by combining the broken seam transmitting tube 61 and the broken seam receiving tube 62 is simple in structure and convenient for operation, the broken seam transmitting tube 61 and the broken seam receiving tube 62 are connected through the broken seam ray signal 63, the sensitivity of induction is high, and faults are not easy to occur; the size of the broken seam 44 can be judged only if the broken seam transmitting tube 61 and the broken seam receiving tube 62 are positioned on two sides.

The driving device comprises a driving roller 2 and a paper pressing plate 3; the paper pressing plate 3 presses the paper surface on the driving roller 2, and the paper surface 42 is discharged by the rotation of the driving roller 2.

The driving device that the nipper 3 and the drive roller 2 cooperation formed simple structure, easy to assemble, compact structure makes the output paper face be difficult to the card paper moreover, goes out paper smoothly.

The identification broken seam sensor 5 is arranged at the front end of the driving device, and the identification broken seam sensor 5 comprises an identification transmitting tube 51 and an identification receiving tube 52; the identification transmitting tube 51 is connected with the identification receiving tube 52 through an identification ray signal 53; the identification transmitting tube 51 and the identification receiving tube 52 are respectively located on both sides of the paper surface 42.

The identification fracture sensor 5 formed by combining the identification transmitting tube 51 and the identification receiving tube 52 is simple in structure and convenient to operate, the identification transmitting tube 51 is connected with the identification receiving tube 52 through the identification ray signal 53, the sensing sensitivity is high, and faults are not prone to occurring; the identification transmitting pipe 51 and the identification receiving pipe 52 are located on both sides to effectively determine whether the identification gap 43 exists, thereby effectively controlling the state of the driving roller 2.

The human body sensor 1 is a human body sensor, and comprises a hand sensing transmitting tube 11 and a hand sensing receiving tube 12; the hand-sensing transmitting tube 11 is connected with the hand-sensing receiving tube 12 through a hand-sensing ray signal 13.

The human body sensor is adopted for convenient operation, and the human body sensor can detect the human body by directly putting a handle into the sensing area 14; meanwhile, the human body sensor formed by the hand induction transmitting tube 11 and the hand induction receiving tube 12 is simple in structure, high in sensitivity and not prone to failure.

A roll paper suitable for use in the control device described above, characterized in that: the paper surface 42 of the roll paper 4 is provided with a recognition gap 43 which allows the recognition gap sensor 5 to receive a sensing signal.

When the identification slit 43 on the paper surface 42 reaches the position of the identification slit sensor 5 along with the paper discharge of the roll paper, the identification ray signal 53 sent by the identification transmitting tube 51 of the identification slit sensor 5 can pass through the identification slit 43 and be received by the identification receiving tube 52, then the identification slit sensor 5 sends a signal for stopping the operation to the driving device, the driving device stops rotating, and the roll paper is in a non-paper discharge state. Therefore, only the roll paper satisfying the identification gap 43 where the identification gap sensor 5 receives the sensing signal can pass through the paper discharge length which can be effectively controlled by the control device.

Further, the paper surface 42 of the roll paper 4 is provided with a cut 44 for preventing the cut sensor 6 from receiving a sensing signal.

When the identification slit 43 on the paper surface 42 reaches the position of the identification slit sensor 5 along with the paper discharge of the roll paper, the identification ray signal 53 sent by the identification transmitting tube 51 of the identification slit sensor 5 can pass through the identification slit 43 and be received by the identification receiving tube 52, however, the slit ray signal 63 sent by the slit transmitting tube 61 of the slit sensor 6 cannot be received by the slit receiving tube 62, and then the slit sensor 6 has no sensing signal, then the intelligent circuit control board will do the action of stopping the driving device, the driving device will stop rotating, and the roll paper will be in the non-paper discharge state. Therefore, only the cut roll paper satisfying the sensing signal received by the sensing signal of the sensing sensor 5 and the sensing signal of the sensing sensor 6 can be effectively controlled by the control device. If the identification gap sensor 5 and the gap sensor 6 can receive the signals, the roll paper is not suitable for effectively controlling the length of the paper output by using the control device. The control device is mainly arranged to be matched with the roll paper for sale, so that the roll paper is promoted to be sold.

The technical principle of the present invention is described above in connection with specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive effort, which would fall within the scope of the present invention.

Claims

1. Control device based on paper broken joint discernment control goes out paper, its characterized in that, it includes: the device comprises a human body sensor, a broken seam recognition sensor and a driving device;

the identification broken seam sensor is used for sensing the identification broken seam on the paper surface of the roll paper so as to control the driving device to stop working;

the paper-out sensor is used for identifying whether the paper outlet is out of paper or not so as to control the human body sensor to be in a working state or a non-working state;

the device also comprises a broken seam sensor which is electrically connected with the driving device; the broken joint sensor and the identification broken joint sensor are arranged in parallel;

when the identified broken seam reaches the identified broken seam sensor, the identified broken seam sensor corresponds to the identified broken seam position with wide seam, and the broken seam sensor corresponds to the broken seam position with narrow seam; the identification ray signal sent by the identification transmitting tube penetrates through the identification broken seam, the identification receiving tube receives the identification ray signal, and the level of the output signal of the identification receiving tube is changed from 0 to 1; the level of the output signal of the broken seam receiving tube cannot be changed and is still 0; when the paper surface is in the position of the hole, the paper-out sensor sends a signal to enable the human body sensor to be in an out-of-work state, and when the paper surface is not in the position of the hole, the paper-out sensor sends a signal to enable the human body sensor to be in an in-work state.

2. The paper surface crack recognition based control device for controlling paper output according to claim 1, further comprising a paper guide plate disposed along a direction in which the driving device drives the roll paper to output paper, wherein the driving device rotates the paper surface taken out to output paper along the paper guide plate, and a paper head of the roll paper is output from a paper output port of the paper guide plate.

3. The paper surface crack recognition based control device for controlling paper output according to claim 2, wherein the paper guide plate has an arc-shaped plate structure, and the head end of the paper guide plate is hinged to the tail end of the paper pressing plate of the driving device, and the paper guide plate swings back and forth with the hinge point as an axis.

4. The paper surface broken seam recognition-based paper outlet control device according to claim 2, wherein the paper guide plate is provided with a hole, and the paper absence sensor corresponds to the hole; the paper-out sensor comprises a paper-out transmitting tube and a paper-out receiving tube, wherein the paper-out transmitting tube is connected with the paper-out receiving tube through a paper-out ray signal.

5. The paper surface broken seam recognition-based paper ejection control device according to claim 1, wherein the broken seam sensor is located at a front end of the driving device; the broken seam sensor comprises a broken seam transmitting tube and a broken seam receiving tube, and the broken seam transmitting tube is connected with the broken seam receiving tube through a broken seam transmitting signal; the fracture transmitting tube and the fracture receiving tube are respectively positioned on two sides of the paper surface.

6. The control device for controlling paper ejection based on paper surface crack recognition according to claim 1, wherein the driving device includes a driving roller and a paper pressing plate; the paper pressing plate presses the paper surface on the driving roller, and the paper surface is discharged under the action of rotation of the driving roller.

7. The paper surface broken seam recognition based control device for controlling paper output according to claim 1, wherein the recognition broken seam sensor is arranged at the front end of the driving device, and comprises a recognition transmitting tube and a recognition receiving tube; the identification transmitting tube is connected with the identification receiving tube through an identification ray signal; the identification transmitting tube and the identification receiving tube are respectively positioned on two sides of the paper surface.

8. A roll paper suitable for use in the control device according to any one of claims 1 to 7, characterized in that: and the paper surface of the roll paper is provided with an identification broken seam which enables the identification broken seam sensor to receive an induction signal.

9. A paper wrapper according to claim 8, wherein: and the paper surface of the roll paper is also provided with a broken seam which enables the broken seam inductor not to receive an induction signal.