CN218635881U - Combined paper towel machine - Google Patents

Abstract

The utility model discloses a combined paper towel machine, which comprises a case, a control module, a paper wrapping output module for outputting bagged paper towels and a paper rolling output module for outputting paper towel sections; the control module, the paper wrapping output module and the roll paper output module are arranged in the case, and the control module is electrically connected with the paper wrapping output module and the roll paper output module; the front side of the case is provided with a wrapping paper output port corresponding to the wrapping paper output module, and the bottom wall of the case is provided with a roll paper output port corresponding to the roll paper output module. The utility model discloses paper handkerchief and paper handkerchief section in bags can be exported for the user can select this combination formula paper handkerchief machine output paper handkerchief or paper handkerchief section in bags according to self demand, has reduced the use limitation of paper handkerchief machine.

Description

Combined paper towel machine

Technical Field

The utility model relates to a paper handkerchief selling equipment especially indicates a modular paper handkerchief machine.

Background

A paper towel machine is a device which is placed in public places and used for providing paper towels; the existing paper towel machine only can output a whole pack of bagged paper towels or only can output a whole section of paper towel, so that the use limitation exists, and the type of the paper towel output cannot be selected according to the requirements of users.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a modular paper handkerchief machine, it can export paper handkerchief and paper handkerchief section in bags for the user can select this modular paper handkerchief machine output paper handkerchief or paper handkerchief section in bags according to self demand, has reduced the use limitation.

In order to achieve the above purpose, the solution of the present invention is:

a combined paper towel machine comprises a machine case, a control module, a paper wrapping output module for outputting bagged paper towels and a paper rolling output module for outputting paper towel sections; the control module, the paper wrapping output module and the roll paper output module are arranged in the case, and the control module is electrically connected with the paper wrapping output module and the roll paper output module; the front side of the case is provided with a wrapping paper output port corresponding to the wrapping paper output module, and the bottom wall of the case is provided with a roll paper output port corresponding to the roll paper output module.

The paper packaging output module comprises a paper storage mechanism and a paper outlet mechanism; the paper storage mechanism comprises a paper storage bin, a push plate and a push plate driving device; the paper storage bin is used for containing a plurality of rows of bagged tissues, and a dropping opening is formed in one side of the bottom of the inner cavity of the paper storage bin; the push plate can be horizontally moved and matched in the inner cavity of the paper storage bin and is used for pushing the bagged paper towels in the paper storage bin to move towards the falling port; the push plate driving device is connected with the push plate and drives the push plate to move horizontally; the paper discharging mechanism comprises a supporting plate, a paper discharging device and a paper discharging driving device; the supporting plate is arranged below the dropping opening and used for receiving bagged tissues dropping from the dropping opening, and a paper-wrapping output port of the case is arranged corresponding to the supporting plate; the paper discharging device is movably matched with the supporting plate and used for pushing bagged paper towels dropping on the supporting plate to move forwards, and the paper discharging driving device is matched with the paper discharging device and drives the paper discharging device to move; the control module is electrically connected with the push plate driving device and the paper outlet driving device.

The paper outlet mechanism also comprises a lifting baffle; the lifting baffle is matched in the case in a lifting manner, and the lifting baffle movably shields the paper wrapping output port; the paper outlet driving device is matched with the lifting baffle and drives the lifting baffle to lift.

The paper outlet driving device is matched with the lifting baffle through the linkage assembly; the linkage assembly comprises a linkage plate and a linkage seat, the linkage plate is fixedly connected with the lifting baffle, the lifting baffle can move up and down and is in sliding connection with the support plate, the side surface of the linkage plate is provided with a linkage guide groove, and the linkage guide groove comprises a lifting section inclined in the front-back direction; the linkage seat is matched with a linkage block, the linkage block is in sliding connection with the lifting section, and the linkage block and the upper wall surface and the lower wall surface of the lifting section form stop matching; the paper outlet driving device is connected with the linkage seat and drives the linkage seat to move back and forth.

The paper outlet device comprises a turning plate, a sliding seat and a reset torsion spring; the turnover plate is hinged with the sliding seat, can move back and forth and passes through a gap between the support plate and the falling port, the sliding seat is provided with a limiting part for abutting against the turnover plate, the limiting part is used for limiting the turnover plate to rotate backwards, and the turnover plate is in a vertical state when abutting against the limiting part of the sliding seat; the reset torsion spring is arranged between the turning plate and the sliding seat and is used for driving the turning plate to abut against the limiting part; the paper discharging driving device drives the sliding seat to move back and forth.

The paper storage mechanism also comprises an out-of-stock detection device electrically connected with the control module, and the out-of-stock detection device is a reflective photoelectric switch; the short-order detection device is arranged on the side wall of the paper storage bin, and the sensing area of the short-order detection device is positioned right above the falling port.

The stock form output module is including the stock form erection column that is used for installing the stock form and set up the stock form output core in stock form erection column below, and stock form output core is used for conveying and cutting the paper handkerchief section of stock form.

The paper roll output machine core comprises a machine core shell, a paper feeding device, a paper feeding driving device, a paper cutting device and a paper cutting driving device; the machine core shell is arranged in the machine case, a tissue channel which penetrates through the machine core shell up and down is arranged corresponding to the roll paper mounting column and the roll paper output port, and the tissue channel is opposite to the roll paper output port; the paper feeding device and the paper cutting device are arranged in the paper towel channel from top to bottom; the paper feeding driving device and the paper cutting driving device are arranged on the machine core shell and respectively drive the paper feeding device and the paper cutting device to act, and the control module is electrically connected with the paper feeding driving device and the paper cutting driving device.

The roll paper output module also comprises a roll paper allowance measuring device; the roll paper allowance measuring device comprises a first detection sensor and a second detection sensor, wherein the first detection sensor and the second detection sensor are both reflection-type photoelectric switches; the first detection sensor and the second detection sensor are sequentially arranged right below the roll paper mounting column from top to bottom, and are electrically connected with the control module.

The front end of stock form erection column cooperates a limiting plate, and the side of limiting plate is the protruding spacing piece of establishing that makes progress, and spacing piece is upwards protruding stock form erection column.

After the technical scheme is adopted, the utility model discloses have the stock form output module who is used for exporting the paper handkerchief in bags output module and is used for exporting the paper handkerchief section, like this the utility model discloses can select output paper handkerchief in bags or paper handkerchief section according to the user's demand, reduce the use limitation of paper handkerchief machine.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of a partial structure of the present invention;

fig. 3 is an exploded view of the present invention;

FIG. 4 is a schematic view of the present invention;

FIG. 5 is a schematic structural view of a paper storage mechanism according to the present invention;

FIG. 6 is an exploded view of the paper storage mechanism of the present invention;

fig. 7 is a sectional view of the paper storing mechanism of the present invention;

fig. 8 is a schematic structural diagram 1 of a paper discharging mechanism of the present invention;

fig. 9 is a schematic structural view of the paper delivery mechanism of the present invention, fig. 2;

fig. 10 is an exploded view of the paper delivery mechanism of the present invention 1;

fig. 11 is an exploded view of the paper delivery mechanism of the present invention, fig. 2;

fig. 12 is a sectional view of the paper delivery mechanism of the present invention;

FIG. 13 is a schematic view of the paper storage mechanism and the paper delivery mechanism of the present invention in use 1;

FIG. 14 is a schematic view of the paper storage mechanism and paper delivery mechanism of the present invention in use, FIG. 2;

fig. 15 is a schematic structural view of the roll paper output movement of the present invention;

fig. 16 is an exploded view of the roll paper output mechanism of the present invention;

description of reference numerals:

a machine case 1, a machine case body 101, a machine case cover 102, a paper wrapping output port 11, a roll paper output port 12,

the control module (2) is provided with a control module,

a paper-wrapping output module (3) is arranged,

a paper storage mechanism A, a bin body A101, a bin cover A102, a paper storage bin A1, a falling port A11, a long groove A12, a stop plate A13, a push plate A2, a push plate sliding block A21, an approach component A22, a light through hole A23, a push plate driving device A3, a push plate screw rod A31, a push plate nut A32, a push plate motor A33, a push plate displacement control device A4, an approach switch A41, an out-of-stock detection device A5, a cargo quantity detection device A6, a light emitter A61, a light receiver A62,

a paper discharging mechanism B, a support plate B1, a strip hole B11, a paper discharging device B2, a turning plate B21, a slide seat B22, a limit part B221, a light reflecting part B222, a reset torsion spring B23, a paper discharging driving device B3, a paper discharging screw rod B31, a paper discharging nut B32, a paper discharging motor B33, a paper discharging stroke control device B4, a front stroke switch B41, a rear stroke switch B42, a lifting baffle B5, a sliding connection piece B51, a linkage component B6, a linkage plate B61, a linkage guide groove B611, a lifting section B6111, a pushing section B6112, a linkage seat B62, a linkage block B63, a sliding connection plate B7, a position yielding opening B71 and a slide groove B72,

the roll paper output module 4 is provided with a paper output module,

a roll paper mounting column (C) is provided,

a paper output machine core D, a machine core shell D1, a paper feeding device D2, a paper feeding roller D21, a paper feeding driving device D3, a paper feeding motor D31, a paper cutting device D4, a static cutter D41, a movable cutter D42, a paper cutting driving device D5 and a paper cutting motor D51,

a limit plate E, a limit sheet E1,

a remaining roll paper amount measuring device F, a first detecting sensor F1, a second detecting sensor F2,

mount 5, relief channel 51.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following embodiments.

As shown in fig. 1 to 16, the present invention discloses a combined tissue machine, which comprises a machine box 1, a control module 2, a paper wrapping output module 3 for outputting bagged tissues, and a paper rolling output module 4 for outputting tissue sections; the control module 2, the paper wrapping output module 3 and the roll paper output module 4 are installed in the case 1, the control module 2 is electrically connected with the paper wrapping output module 3 and the roll paper output module 4, and the control module 2 controls the actions of the paper wrapping output module 3 and the roll paper output module 4; the front side of the case 1 is provided with a paper wrapping output port 11 corresponding to the paper wrapping output module 3, and the bottom wall of the case 1 is provided with a roll paper output port 12 corresponding to the roll paper output module 4. Because the utility model discloses have the stock form output module 4 that is used for exporting the paper handkerchief in bags output module 3 and is used for exporting the paper handkerchief section, like this the utility model discloses can select output paper handkerchief in bags or paper handkerchief section according to user's demand, reduce the use limitation of paper handkerchief machine.

As shown in fig. 2, 3, and 5 to 14, the paper-wrapping output module 3 includes a paper storage mechanism a and a paper output mechanism B; the paper storage mechanism A comprises a paper storage bin A1, a push plate A2 and a push plate driving device A3; the paper storage bin A1 is used for containing a plurality of rows of bagged tissues, a dropping opening A11 is formed in one side of the bottom of an inner cavity of the paper storage bin A1, the dropping opening A11 is used for enabling the bagged tissues in the paper storage bin A1 to fall out of the paper storage bin A1, and the size of the dropping opening A11 is designed to be just suitable for enabling one bag of the bagged tissues to fall out; the push plate A2 can be horizontally moved and matched in the inner cavity of the paper storage bin A1, and the push plate A2 is used for pushing bagged tissues in the paper storage bin A1 to move towards the falling port A11; the push plate driving device A3 is connected with the push plate A2, and the push plate driving device A3 drives the push plate A2 to move horizontally, so that the push plate A2 can push the bagged tissues to move; the paper discharging mechanism B comprises a supporting plate B1, a paper discharging device B2 and a paper discharging driving device B3; the supporting plate B1 is arranged below the falling port A11 and used for receiving bagged tissues falling from the falling port A11, and the paper wrapping output port 11 of the case 1 is arranged corresponding to the supporting plate B1; the paper discharging device B2 is movably matched with the supporting plate B1, the paper discharging device B2 is used for pushing the bagged paper towels falling on the supporting plate B1 to move forwards so that the bagged paper towels falling on the supporting plate B move towards the paper wrapping output port 111, the paper discharging driving device B3 is matched with the paper discharging device B2, and the paper discharging driving device B3 drives the paper discharging device B2 to move; the control module 2 is electrically connected with the push plate driving device A3 and the paper output driving device B3, and the control module 2 controls the push plate driving device A3 and the paper output driving device B3 to control the paper wrapping output module 3. The supporting plate B1 can be connected with the stock warehouse A1, and the stock warehouse A1 is connected with the machine case 1.

The process of outputting the bagged tissues by the paper-wrapping output module 3 is as follows: firstly, a bag of packaged tissues accommodated in the paper storage bin A1 falls onto the support plate B1 from the falling port A11; then the paper discharging driving device B3 drives the paper discharging device B2 to push the bagged paper towels dropping on the supporting plate B1 to move forwards, so that the bagged paper towels are output; after the paper output device B2 finishes outputting the bagged tissues, the paper output driving device B3 drives the paper output device B2 to reset. Wherein the utility model discloses a in depositing a mouthful A11 top of dropping a bagged towel in the paper storehouse A1 and all dropping a mouthful A11 of dropping and depositing the outer back in paper storehouse A11, push pedal drive arrangement A3 then drives push pedal A2 and remove for push pedal A2 promotes to deposit the bagged towel in the paper storehouse A1 and removes to the mouth A11 that drops, so that it removes to the mouthful A11 top of dropping to deposit a new bagged towel in the paper storehouse A1.

As shown in fig. 6 and 7, a long groove a12 with an upper opening is formed in the bottom of the inner cavity of the paper storage bin A1 along the moving direction of the pushing plate A2; the push plate A2 is provided with a push plate sliding block A21 in sliding connection with the long strip groove A12, the push plate sliding block A21 is connected with a push plate driving device A3, the push plate driving device A3 drives the push plate A2 to move by driving the push plate sliding block A21 to move, and the push plate sliding block A21 is in sliding connection with the long strip groove A12 to guide the moving direction of the push plate A2; the push plate driving device A3 can be a screw rod translation device, and specifically, the push plate driving device A3 includes a push plate screw rod a31, a push plate nut a32 and a push plate motor a33, wherein the push plate screw rod a31 is rotatably fitted in the elongated slot a12, the rotational axis of the push plate screw rod a31 is parallel to the moving direction of the push plate A2, the push plate nut a32 is in threaded connection with the push plate screw rod a31 and the push plate nut a32 is fixedly connected with the push plate slider a21, the push plate nut a32 can be integrally formed with the push plate slider a21, the push plate motor a33 is fitted at the bottom of the paper storage bin A1, and the push plate motor a33 is in transmission connection with the push plate screw rod a31 through a gear set fitted on the side wall of the paper storage bin A1 so that the push plate motor a33 can drive the push plate screw rod a31 to rotate; it should be noted that the push plate driving device A3 of the present invention is not limited to the screw rod translation device, and other translation devices capable of driving the push plate A2 to move, such as a conveyor belt translation device or a rack and pinion translation device, may also be used.

As shown in fig. 6 and 7, the paper storing mechanism a may further include a push plate displacement control device A4, where the push plate displacement control device A4 includes a plurality of proximity switches a41 electrically connected to the control module 2, each proximity switch a41 is mounted on the bottom wall of the elongated groove a12 at equal intervals along the moving direction of the push plate A2, and the push plate slider a21 is fitted with a proximity component a22 fitted with each proximity switch a 41; the utility model discloses a control module 2 can acquire push pedal A2 through each proximity switch A41 and remove the in-process position, like this the utility model discloses a proximity unit A22 just can control push pedal A2's displacement size with each proximity switch A41's cooperation to make push pedal A2 can be accurate promote the bagged tissues of an permutation directly over dropping a mouthful A11. Wherein the utility model discloses can adjust adjacent proximity switch A41's interval according to the size of a dimension of the facial tissue in bags of holding in the paper storehouse A1 for adjacent proximity switch A41's interval is the width of facial tissue in bags in push pedal A2 moving direction, thereby ensures that push pedal A2 can be accurate promote the facial tissue in bags of an entire row directly over dropping mouthful A11. The proximity switches a41 may be reflective photoelectric switches, and the proximity component a22 is a reflective sheet that movably covers the detection ports of the proximity switches a41, so that when the proximity component a22 covers a certain detection port of a proximity switch a41, the proximity switch a41 is triggered.

As shown in fig. 6 and 7, the paper storage mechanism a may further include an out-of-stock detection device A5, where the out-of-stock detection device A5 is electrically connected to the control module 2, and the out-of-stock detection device A5 is also a reflective photoelectric switch; the short-of-stock detection device A5 is arranged on the side wall of the paper storage bin A1, light emitted by the short-of-stock detection device A5 can enter the paper storage bin A1, the sensing area of the short-of-stock detection device A5 is positioned right above the dropping port A11, and bagged tissues positioned right above the dropping port A11 can reflect the light emitted by the short-of-stock detection device A5, so that the utility model can detect whether the bagged tissues exist right above the dropping port A11 through the short-of-stock detection device A5; this sample utility model discloses a lack of goods detection device A5 detects when not having the bagged towel directly over the mouth A11 that drops, and control module 2 passes through push pedal drive arrangement A3 drive push pedal A2 and removes to the mouth A11 that drops for push pedal A2 promotes to deposit the bagged towel in the paper storehouse A1 and removes to the mouth A11 that drops, so that deposit a new bagged towel in the paper storehouse A1 and remove to the mouth A11 top that drops.

As shown in fig. 6 and 7, the paper storing mechanism a may further include a cargo amount detecting device A6; the cargo quantity detection device A6 comprises a light emitter A61 and a light receiver A62 which are electrically connected with the control module 2, the light emitter A61 and the light receiver A62 are respectively installed on the side walls of two sides of the paper storage bin A1, the light emitting end of the light emitter A61 is aligned to the light receiving end of the light receiver A62, the light emitting direction of the light emitter A61 is parallel to the moving direction of the push plate A2, and the push plate A2 is provided with a light through hole A23 corresponding to the light emitting end of the light emitter A61 so that light emitted by the light emitter A61 can pass through the push plate A2. When the bagged tissues in the paper storage bin A1 are sufficient, the bagged tissues in the paper storage bin A1 can shield the light emitted by the light emitter A61, so that the light receiver A62 can not receive the light emitted by the light emitter A61; when the bagged tissues in the paper storage bin A1 are insufficient, the light emitted by the light emitter A61 is not shielded by the bagged tissues, so that the light receiver A62 receives the light emitted by the light emitter A61; thus, the utility model discloses when light receiver A62 received the light that light emitter A61 sent, can judge that the paper handkerchief in bags in the storehouse of depositing A1 is not enough, control module 2 alright send information and remind the fortune dimension personnel to supply the paper handkerchief in bags this moment.

As shown in fig. 10 to 12, the paper discharging device B2 includes a turning plate B21, a sliding seat B22 and a return torsion spring B23; the turning plate B21 is hinged with the sliding seat B22, the turning plate B21 can move back and forth and passes through a gap between the supporting plate B1 and the falling port A11, the sliding seat B22 is provided with a limiting part B221 for abutting against the turning plate, the limiting part B221 is used for limiting the turning plate B21 to rotate backwards, and the turning plate B21 is in a vertical state when the turning plate B21 abuts against the limiting part B221 of the sliding seat B22; the reset torsion spring B23 is arranged between the turning plate B21 and the sliding seat B22, and the reset torsion spring B3 is used for driving the turning plate B21 to abut against the limiting part B221; the paper discharging device B3 drives the slide B22 to move back and forth. The working principle of the paper discharging device B2 is as follows: when the turning plate B11 is in the vertical state, the paper-out driving device B3 drives the sliding seat B22 to move forward, and the sliding seat B22 can drive the turning plate B11 to move forward, so that the turning plate B11 can push bagged tissues dropped on the supporting plate B1 to move forward to output the bagged tissues; after the flap B11 moves forward to pass through the drop opening a11, the bagged tissues in the paper storage bin A1 drop onto the support plate B1 from the drop opening a 11. The utility model discloses after paper output device A2 accomplished the output of paper handkerchief in bags, go out paper drive arrangement B3 drive slide B22 and remove backward and make and turn over board B11 and remove backward and reset, in the in-process that turns over board B11 and remove backward and reset, turn over board B11 and touch follow-up and drop the paper handkerchief in bags on the backup pad B1 from drop mouth A11 and then can make and turn over board B11 and rotate forward, so that turn over board B11 and become the state of keeping flat from the state of standing, thereby make turn over board B11 can not blocked by bag dress paper handkerchief, so that turn over board B11 can remove backward and through the paper handkerchief in bags; after the flap B11 in the horizontal state moves backwards and passes through the bagged paper towel, the reset torsion spring B23 drives the push plate to rotate backwards so that the flap B11 is changed from the horizontal state to the vertical state, and the forward movement of the flap B11 can push the bagged paper towel to move forwards. The bottom of the paper storage bin A1 can be provided with a stopping portion A13, and the stopping portion A13 is used for abutting against the rear side of the bagged paper towels falling onto the supporting plate B1 so as to limit the bagged paper towels falling onto the supporting plate B1 to move backwards.

As shown in fig. 9 to 12, the support plate B1 may be provided with a long hole B11 penetrating up and down along the front-back direction, the turning plate B21 penetrates through the long hole B11, and the turning plate B21 may rotate forward to be accommodated in the long hole B11. The sliding seat B22 is in sliding contact with the elongated hole B11 to guide the movement of the sliding seat B22; the paper discharging driving device B3 can also be a lead screw translation device, and specifically, the paper discharging driving device B3 comprises a paper discharging lead screw B31, a paper discharging nut B32 and a paper discharging motor B33, wherein the paper discharging lead screw B31 is rotatably matched in the strip hole B11, the rotating shaft of the paper discharging lead screw B31 is axially arranged along the front and back directions, the paper discharging nut B32 is in threaded connection with the paper discharging lead screw B31, the paper discharging nut B32 is integrally formed with the slide seat B22, the paper discharging motor B33 is matched at the bottom of the supporting plate B1, and the paper discharging motor B33 can drive the paper discharging lead screw B31 to rotate by being matched with a gear set of the supporting plate B1 and the paper discharging lead screw B31 in a transmission manner. It should be noted that the paper output driving device B3 of the present invention is not limited to the screw rod translation device, and other translation devices, such as a conveyor belt translation device or a rack and pinion translation device, may also be used.

As shown in fig. 9 to 12, the paper discharging mechanism B may further include a paper discharging stroke control device B4; the paper discharging stroke control device B4 comprises a front stroke switch B41 and a rear stroke switch B42 which are electrically connected with the control module 2; the front travel switch B41 and the rear travel switch B42 are arranged on the support plate B1, and the front travel switch B41 and the rear travel switch B42 respectively correspond to the forward travel end position of the sliding seat B22 and the backward travel end position of the sliding seat B22; when the paper discharging driving device B3 drives the sliding seat B22 to move forward to the forward stroke end position of the sliding seat B22, the sliding seat B22 triggers the forward stroke switch B41, so that the forward stroke switch B41 controls the paper discharging driving device B3 to stop driving the sliding seat B22 to move forward; when the paper discharging driving device B3 drives the sliding seat B22 to move backward to the backward movement stroke end position of the sliding seat B22, the sliding seat B22 triggers the backward stroke switch B42, so that the backward stroke switch B42 controls the paper discharging driving device B3 to stop driving the sliding seat B22 to move backward; therefore, the utility model discloses a play paper stroke controlling means B4 just can control slide B22's removal stroke. The front travel switch B41 and the rear travel switch B42 are both reflective photoelectric switches; the sliding seat B22 is provided with a light reflecting part B222 which movably covers the detection ports of the front travel switch B41 and the rear travel switch B42; the front travel switch B41 is triggered when the carriage reflection portion B222 covers the detection port of the front travel switch B41, and the rear travel switch B42 is triggered when the carriage reflection portion B222 covers the detection port of the rear travel switch B42.

As shown in fig. 8 to 12, the paper discharging mechanism B further includes a lifting baffle B5; the lifting baffle B5 is matched in the case 1 in a lifting way, and the lifting baffle B5 movably shields the wrapping paper output port 11; the paper discharging driving device B3 is matched with the lifting baffle B5, and the paper discharging driving device B3 drives the lifting baffle B5 to lift. The utility model discloses a set up lifting baffle B5 and can close package paper delivery outlet 11 when not needing output bagged tissues, avoid illegal personnel to steal bagged tissues through package paper delivery outlet 11. In addition lift baffle B5 is driven by play paper drive arrangement B3, like this the utility model discloses can be when the paper handkerchief in bags is exported to needs, drive lift baffle B5 through play paper drive arrangement B3 and go up and down and open package paper delivery outlet 11 for need not to contact lift baffle B5 when the user gets the paper handkerchief in bags, thereby be convenient for the user to use and help avoiding user's cross infection.

As shown in fig. 8, 10 and 11, the paper output driving device B3 is engaged with the lifting baffle B5 through an interlocking component B6; the linkage assembly B6 comprises a linkage plate B61 and a linkage seat B62, the linkage plate B61 is fixedly connected with a lifting baffle B5, the linkage plate B61 can be integrally formed with the lifting baffle B5, the lifting baffle B5 can be in sliding connection with a supporting plate B1 in an up-and-down moving mode, a linkage guide groove B611 is arranged on the side face of the linkage plate B61, and the linkage guide groove B611 comprises a lifting section B6111 inclined in the front-and-back direction; the linkage seat B62 is matched with a linkage block B63, the linkage block B63 is in sliding connection with the lifting section B6111, and the linkage block B63 is matched with the upper wall surface and the lower wall surface of the lifting section B6111 in a stop way; the paper output driving device B3 is connected with the linkage seat B62, and the paper output driving device B3 drives the linkage seat B62 to move back and forth; the interlocking seat B62 may be connected to the paper output nut B32 of the paper output driving device B3, and the interlocking seat B62, the paper output nut B32 and the sliding seat B22 may be integrally formed. The paper outlet driving device B3 drives the lifting baffle B5 to lift through the linkage component B6 according to the following principle: when the paper discharge driving device B3 drives the linkage seat B62 to move in the front-back direction, the linkage seat B62 can drive the linkage block B62 to move in the front-back direction, and when the linkage block B62 moves in the front-back direction in the lifting section B6111 of the linkage guide groove B611, the linkage block B62 can apply an acting force to the linkage plate B61 in the up-down direction, so as to drive the linkage plate B61 to drive the lifting baffle B5 to lift, and thus the lifting baffle B5 can be driven to open and close the paper wrapping output port 11. As shown in fig. 8 to 11, the support plate B1 may be slidably connected to a lifting baffle B5 through a sliding plate B7, the sliding plate B7 is connected to the front end of the support plate B1, the sliding plate B7 may be integrally formed with the support plate B1, the sliding plate B7 is provided with a position-giving opening B71 corresponding to the paper-wrapping output port 11, the position-giving opening B71 is provided to enable the bagged tissue to move through the sliding plate B7, the sliding plate B7 is provided at left and right sides thereof with sliding grooves B72 respectively arranged in the up-down direction, and the lifting baffle B5 is fitted with sliding pieces B51 slidably connected to the sliding grooves B72 at left and right sides of the sliding plate B7 respectively; the bottom end of the sliding chute B72 can be closed, so that the lifting baffle B5 can be prevented from falling downwards. The sliding piece B51 is rotatably connected to the lifting flap B5, which helps to reduce the frictional resistance between the sliding piece B51 and the sliding groove B72.

As shown in fig. 8, the linking guide groove B611 of the linking plate B61 further includes a pushing-out section B6112 arranged in parallel in the front-back direction, and the rear end of the pushing-out section B6112 is communicated with the front end of the lifting section B6111; the linkage block B63 is in sliding fit with the pushing-out section B6112 of the linkage guide groove B611; when the linkage seat B62 moves forward to make the linkage block B63 enter the pushing-out section B6112 from the lifting section B6111, and then the paper-out driving device B3 drives the linkage seat B62 to move forward continuously, the linkage block B63 will move forward along the pushing-out section B6112; because the paper-out driving device B3 drives the linkage seat B62 to move forward while the paper-out driving device B3 drives the turning plate B21 of the paper-out device B2 to move forward simultaneously, so that the turning plate B21 can simultaneously push the bagged tissues dropped on the supporting plate B1 to move forward, when the linkage block B63 enters the pushing-out section B6112 from the lifting section B6111, the lifting baffle B5 opens the paper-wrapping output port 11, and then the linkage block B63 continues to move forward along the pushing-out section B6112, so that the lifting baffle B5 does not lift any more, and the turning plate B21 of the paper-out device B2 continues to move forward, so that the turning plate B21 of the paper-out device B2 can push the bagged tissues dropped on the supporting plate B1 out of the paper-wrapping output port 11, so that a user does not need to stretch hands into the machine case 1 when taking the bagged tissues, thereby facilitating the user operation and effectively reducing the risk of cross infection of the user. The utility model can control the stroke of the paper outlet device B3 through the paper outlet stroke control device B4, so that the turning plate B21 of the paper outlet device B2 can completely push the bagged paper towel out of the case 1 from the paper-wrapping output port 11; the utility model discloses can also be through going out paper stroke controlling means B4 and control paper device B3's stroke for paper device B2 turns over board B21 and can release quick-witted case 1 with the paper handkerchief in bags from package paper delivery outlet 11 parts, so that paper handkerchief in bags partly lies in outside quick-witted case 1, and another part lies in quick-witted case 1, avoids the user not in time get the paper handkerchief in bags and causes the paper handkerchief in bags to drop. As shown in fig. 8, the front end of the pushing-out section B6112 is closed, so that the interlocking block B63 is prevented from being pulled out of the interlocking guide slot B611 forward, and the lifting baffle B5 is prevented from being lifted by people due to the interlocking block B63 being pulled out of the interlocking guide slot B611. In addition, the pushing-out section B6112 of the linkage guide groove B611 is arranged in parallel in the front-back direction, so that the lifting baffle B5 cannot lift when the linkage block B63 moves in the pushing-out section B6112, thereby reducing the lifting stroke of the lifting baffle B5 and being beneficial to reducing the space occupation of the lifting baffle B5. The linkage block B63 can be rotatably connected with the linkage seat B62, so that the linkage block B63 can be prevented from being clamped in the linkage guide groove B611.

As shown in fig. 2 to 4, the roll paper output module 4 includes a roll paper mounting post C for mounting roll paper and a roll paper output core D disposed below the roll paper mounting post C, and the roll paper output core D is configured to convey and cut a paper towel piece of the roll paper to output the paper towel piece. As shown in fig. 15 and 16, the roll paper output movement D may include a movement housing D1, a paper feeding device D2, a paper feeding driving device D3, a paper cutting device D4, and a paper cutting driving device D5; the machine core shell D1 is arranged in the case 1, and the machine core shell D1 is provided with a tissue channel D11 which penetrates up and down so that tissue sections of roll paper can pass through the machine core shell D1; the paper feeding device D2 and the paper cutting device D4 are installed in the paper towel channel D11 from top to bottom, the paper feeding driving device D3 and the paper cutting driving device D5 are installed on the machine core shell D1, the paper feeding driving device D3 and the paper cutting driving device D5 respectively drive the paper feeding device D2 and the paper cutting device 24 to act, and the control module 2 is electrically connected with the paper feeding driving device D3 and the paper cutting driving device D5 so that the control module 2 can control the paper feeding driving device D3 and the paper cutting driving device D5; wherein the paper feeder D2 is operated to feed the web segment of the roll paper, and the paper cutter 24 is operated to cut the web segment of the roll paper. The paper feeding device D2 comprises two paper feeding rollers D21 which are oppositely arranged, the two paper feeding rollers D21 are rotatably matched in the paper towel channel D11, the paper feeding driving device D3 drives the two paper feeding rollers D21 to synchronously and reversely rotate, the paper feeding driving device D3 can comprise a paper feeding motor D31, and the paper feeding motor D31 is in linkage fit with the two paper feeding rollers D21 through a transmission gear set; the paper cutting device D4 comprises a static cutter D41 fixed in the paper towel channel D11 and a movable cutter D42 which can be translationally matched in the paper towel channel D11; the paper cutting driving device D5 drives the movable cutter D42 to perform reciprocating translation so that the movable cutter D42 performs opening and closing actions relative to the static cutter D41, when the movable cutter D42 and the static cutter D41 are closed, the movable cutter D42 and the static cutter D41 cut off paper towels, and when the movable cutter D42 and the static cutter D41 are opened, a channel for paper towels to pass through is formed between the movable cutter D42 and the static cutter D41; the paper cutting driving device D5 may include a paper cutting motor D51, and the paper cutting motor D51 drives the movable cutter D42 to translate through a cam mechanism. As shown in fig. 3, the control module 2 and the paper output core D can be installed on a mounting seat 5, and the mounting seat 5 is provided with a yielding channel 51 corresponding to the paper channel D11 to ensure that the paper section of the roll paper can pass through the mounting seat 5

As shown in fig. 2 to 4, the front end of the roll paper mounting column C is matched with a limiting plate E, a limiting piece E1 is arranged on the side edge of the limiting plate E in an upward protruding manner, the limiting piece E1 protrudes upwards out of the roll paper mounting column C, and the rear end of the roll paper mounting column C is connected with the case 1 to arrange the roll paper mounting column C in the case 1. When the roll paper is installed on the roll paper installation column C, the roll paper can enable the roll paper inner core to abut against the top end of the roll paper installation column C under the self gravity, and the limit piece E1 protrudes upwards from the roll paper installation column C, so that the limit piece E1 can form a stop matching with the roll paper inner core, and the roll paper is prevented from falling off; and the utility model discloses the diameter of the stock form inner core that can also install as required sets up spacing piece E1 for spacing piece E1 is less than the diameter of stock form inner core and stock form erection column poor to the maximum distance of stock form erection column lateral wall, and the stock form inner core can directly pass spacing piece E1 and stock form erection column C and the cover is put on stock form erection column C like this, thereby is convenient for install the stock form.

As shown in fig. 2 and 3, the roll paper output module 4 further includes a roll paper remaining amount measuring device F; the roll paper allowance measuring device F comprises a first detection sensor F1 and a second detection sensor F2 which are electrically connected with a control module 2, wherein the first detection sensor F1 and the second detection sensor F2 are both reflection-type photoelectric switches; the first detection sensor F1 and the second detection sensor F2 are sequentially disposed right below the roll paper mounting column C from top to bottom. The control module 2 confirms the radial thickness of the roll paper mounted on the roll paper mounting post C based on the signal feedback of the first detection sensor F1 and the second detection sensor F2; when the radial thickness of the roll paper is large enough to cover the first detection sensor F1 and the second detection sensor F2, the first detection sensor F1 and the second detection sensor F2 both output signals to the control module 2; when the radial thickness of the roll paper is reduced to cover the first detection sensor F1, only the first detection sensor F1 outputs a signal to the control module 2; when the radial thickness of the roll paper is reduced to a value that the first detection sensor F1 and the second detection sensor F2 cannot be covered, the first detection sensor F1 and the second detection sensor F2 do not output signals to the control module 2; therefore, the control module 2 can judge the radial thickness of the roll paper according to whether the first detection sensor F1 and the second detection sensor F2 output signals, and when the radial thickness of the roll paper is too small, the control module 2 sends information to the operation and maintenance personnel to inform the operation and maintenance personnel to replenish the roll paper.

As shown in fig. 3 and fig. 6, the chassis 1 includes a chassis body 101 with a front opening, and a chassis cover 102, where the chassis cover 102 is used to cover the front opening of the chassis body 101, one side of the chassis cover 102 is hinged to the chassis body 101, and the other side of the chassis cover 102 is hinged to the chassis body 101 through a lock 103; the paper storage bin A1 comprises a bin body A101 and a bin cover A102, the bin body A101 is connected with a supporting plate B1 and a case body 101, a dropping opening A11 and a strip groove A12 are arranged on the bin body A101, the front opening of the bin body A101 is opened, the bin cover A102 covers the front opening of the bin body A101, and a push plate A2 can move left and right and is matched in an inner cavity of the paper storage bin A1; the bin cover A102 can be magnetically connected with the bin body A101 so as to open the paper storage bin A1; when fortune dimension personnel supply the paper handkerchief in bags toward depositing in the paper storehouse A1, because deposit paper storehouse A1 and compare prior art and need not set up the goods way, fortune dimension personnel can once fill multiseriate paper handkerchief in bags toward depositing paper storehouse A1 like this, supply the efficient of paper handkerchief in bags.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications made by those skilled in the art should not be construed as departing from the scope of the present invention.

Claims (10)

1. A combined paper towel machine is characterized in that: the automatic paper packaging machine comprises a case, a control module, a paper packaging output module for outputting bagged paper towels and a roll paper output module for outputting paper towel sections;

the control module, the paper wrapping output module and the roll paper output module are arranged in the case, and the control module is electrically connected with the paper wrapping output module and the roll paper output module; the front side of the case is provided with a paper wrapping output port corresponding to the paper wrapping output module, and the bottom wall of the case is provided with a roll paper output port corresponding to the roll paper output module.

2. The combination towel machine of claim 1, wherein: the paper packaging output module comprises a paper storage mechanism and a paper outlet mechanism;

the paper storage mechanism comprises a paper storage bin, a push plate and a push plate driving device; the paper storage bin is used for containing a plurality of rows of bagged tissues, and a dropping opening is formed in one side of the bottom of the inner cavity of the paper storage bin; the push plate can be horizontally moved and matched in the inner cavity of the paper storage bin and is used for pushing the bagged paper towels in the paper storage bin to move towards the falling port; the push plate driving device is connected with the push plate and drives the push plate to move horizontally;

the paper outlet mechanism comprises a supporting plate, a paper outlet device and a paper outlet driving device; the supporting plate is arranged below the falling port and used for receiving the bagged paper towels falling from the falling port, and the paper wrapping output port of the case is arranged corresponding to the supporting plate; the paper discharging device is movably matched with the supporting plate and used for pushing bagged paper towels dropping on the supporting plate to move forwards, and the paper discharging driving device is matched with the paper discharging device and drives the paper discharging device to move;

the control module is electrically connected with the push plate driving device and the paper outlet driving device.

3. The combination towel machine of claim 2, wherein: the paper outlet mechanism also comprises a lifting baffle; the lifting baffle is matched in the case in a lifting manner, and the lifting baffle movably shields the paper wrapping output port; the paper outlet driving device is matched with the lifting baffle and drives the lifting baffle to lift.

4. The combination towel machine of claim 3, wherein: the paper outlet driving device is matched with the lifting baffle through the linkage assembly;

the linkage assembly comprises a linkage plate and a linkage seat, the linkage plate is fixedly connected with the lifting baffle, the lifting baffle can move up and down and is in sliding connection with the support plate, the side surface of the linkage plate is provided with a linkage guide groove, and the linkage guide groove comprises a lifting section inclined in the front-back direction;

the linkage seat is matched with a linkage block, the linkage block is in sliding connection with the lifting section, and the linkage block is in backstop fit with the upper wall surface and the lower wall surface of the lifting section;

the paper outlet driving device is connected with the linkage seat and drives the linkage seat to move back and forth.

5. The combination towel machine of claim 2, wherein: the paper outlet device comprises a turning plate, a sliding seat and a reset torsion spring; the turnover plate is hinged with the sliding seat, can move back and forth and passes through a gap between the support plate and the falling port, the sliding seat is provided with a limiting part for abutting against the turnover plate, the limiting part is used for limiting the turnover plate to rotate backwards, and the turnover plate is in a vertical state when abutting against the limiting part of the sliding seat; the reset torsion spring is arranged between the turning plate and the sliding seat and is used for driving the turning plate to abut against the limiting part; the paper outlet driving device drives the sliding seat to move back and forth.

6. The combination towel machine of claim 2, wherein: the paper storage mechanism also comprises an out-of-stock detection device electrically connected with the control module, and the out-of-stock detection device is a reflection-type photoelectric switch; the short-order detection device is arranged on the side wall of the paper storage bin, and the sensing area of the short-order detection device is positioned right above the falling port.

7. The combination towel machine of claim 1, wherein: the stock form output module is including the stock form erection column that is used for installing the stock form and set up the stock form output core in stock form erection column below, and the stock form output core is used for conveying and cutting the paper handkerchief section of stock form.

8. The combination towel machine of claim 7, wherein: the roll paper output machine core comprises a machine core shell, a paper feeding device, a paper feeding driving device, a paper cutting device and a paper cutting driving device;

the machine core shell is arranged in the machine case, a tissue channel which penetrates through the machine core shell up and down is arranged on the machine core shell corresponding to the roll paper mounting column and the roll paper output port, and the tissue channel is opposite to the roll paper output port; a paper feeding device and a paper cutting device are arranged in the paper towel channel from top to bottom; the paper feeding driving device and the paper cutting driving device are arranged on the machine core shell, the paper feeding driving device and the paper cutting driving device respectively drive the paper feeding device and the paper cutting device to act, and the control module is electrically connected with the paper feeding driving device and the paper cutting driving device.

9. The combination towel machine of claim 7, wherein: the roll paper output module also comprises a roll paper allowance measuring device;

the roll paper allowance measuring device comprises a first detection sensor and a second detection sensor, wherein the first detection sensor and the second detection sensor are both reflection-type photoelectric switches; first detecting sensor and second detecting sensor top-down set gradually under the stock form erection column, and first detecting sensor and second detecting sensor are connected with the control module electricity.

10. The combination towel machine of claim 7, wherein: the front end of stock form erection column cooperates a limiting plate, and the side of limiting plate is the protruding spacing piece of establishing that makes progress, and spacing piece is upwards protruding stock form erection column.

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