CN216037790U - Direct insertion type full-automatic folding and drawing type face towel machine - Google Patents

Abstract

The utility model discloses a direct-insertion full-automatic stacking extraction type facial tissue machine, wherein a paper separation mechanism comprises a direct-insertion separation mechanism and a bearing mechanism, the direct-insertion separation mechanism is used for separating paper extraction according to specified extraction number, and the bearing mechanism is used for conveying the separated paper extraction to a conveying mechanism; one end of the conveying mechanism is arranged below the bearing mechanism, and the other end of the conveying mechanism is arranged at the front opening of the equipment in an extending mode; the shaping mechanism is used for conveying the paper to the shaping mechanism, and the shaping mechanism is provided with a transverse conveying belt used for transversely conveying the paper to the next procedure. According to the direct-insertion full-automatic folding extraction type facial tissue machine, the paper is separated through the direct-insertion separating mechanism, the separating efficiency and stability of the paper are improved, the folding flatness of the paper is improved, the paper is transversely transmitted to the next procedure through the shaping mechanism, the transverse area required by equipment for conveying the paper is shortened, and the machine is more beneficial to plant layout equipment.

Description

Direct insertion type full-automatic folding and drawing type face towel machine

Technical Field

The utility model relates to the technical field of tissue folding equipment, in particular to a direct-insertion type full-automatic folding and extracting facial tissue machine.

Background

Stock form and kitchen paper all adopt the form production of stock form, and traditional paper extraction production facility is folding propelling movement to equipment openly gets the material mouth, by the staff according to certain number of draws minute paper, artifical minute paper is drawn the number easily and is not accurate, influences production efficiency.

The prior art needs to realize the process, folding and cutting are required to be separated and can be finished by using six groups of rollers, so that the equipment is large in size, the manufacturing cost is very high, and the operation is complex. Present automatic paper equipment of dividing, what generally adopted is that two sets of forks insert technology around separate, and this kind of separation mode has the drawback, because the base stock after the separation will pass from the gap in the middle of two sets of forks, and the base stock has three fourths at least to drop, and the length overlength that drops of base stock leads to the base stock to be handled well moreover, makes several paper extraction that are located the bottom fold untidy, leads to the packing effect at back not good. And the single-side insertion mode is adopted, and the fork is too long, so that the fall of the upper plane of the fork after insertion from the surface of the folding roller is large, the problems of irregular folding, unstable separation, loose separated paper and the like can be caused.

The paper extraction is continuously folded in the equipment, when the number of the folded layers reaches the preset number of the layers of the equipment, the paper extraction is separated through the paper separating mechanism and conveyed to the next station for shaping treatment. The process of current equipment generally to paper separation and plastic is separately handled, and the side of following equipment is transported to next station after the paper extraction is separated, and the factory building needs great horizontal area to arrange this equipment, is unfavorable for the factory building to put equipment. And the paper extraction of traditional equipment is transported out from the front of equipment, still needs the staff to carry the paper extraction to next station department, expends time, is unfavorable for the promotion of production efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims to at least solve the problems that the separation of the paper extraction is unstable and the separated paper is loose in the prior art; the requirement on the area of a factory building is high due to paper discharge from the side face of the equipment, and the equipment is not beneficial to placing the factory building; the technical problem that the working personnel carry the paper extraction to the next working procedure, the efficiency is low, and the production efficiency is not improved easily. Therefore, the utility model provides a direct-insertion full-automatic folding extraction type facial tissue machine, which improves the structure of a paper dividing mechanism, keeps the bottom of the paper extraction flat, is easy to package, ensures that the paper extraction folding process is neat and not loose, and improves the folding efficiency and stability; reduce equipment and put required factory building area to can accomplish the step of branch paper and plastic by an equipment, promote production efficiency.

According to some embodiments of the utility model, the direct-insertion full-automatic folding extraction facial tissue machine comprises a frame and a paper feeding mechanism, wherein the paper feeding mechanism is arranged on the frame; the folding mechanism is arranged in the rack, is positioned below the paper feeding mechanism and is used for folding the facial tissues; the paper separating mechanism is positioned below the folding mechanism and comprises an in-line type separating mechanism and a supporting mechanism, the supporting mechanism is used for supporting the folded paper, the separating mechanism is used for separating the paper according to the specified number of the paper to be drawn, the supporting mechanism is driven by a second driving mechanism to move up and down in the rack, and the in-line type separating mechanism is driven by a first driving mechanism to move up and down in the rack; one end of the conveying mechanism is arranged below the bearing mechanism, and the other end of the conveying mechanism extends from the front opening of the equipment; the shaping mechanism is positioned at the other end of the conveying mechanism and is provided with a transverse conveying belt which is used for transversely conveying the paper extraction to the next procedure; the supporting mechanism is used for conveying the separated paper extraction to the conveying mechanism, and the conveying mechanism is used for conveying the paper extraction to the shaping mechanism.

According to some embodiments of the utility model, the in-line separation mechanism comprises a fixed frame and a paper separation rod slidably connected in the fixed frame, so that the fixed frame is driven by the first driving mechanism to move up and down in the rack, and a plurality of paper separation front forks are arranged on the paper separation rod at equal intervals; the paper separating device comprises a fixed frame, a plurality of crank connecting rod mechanisms, a paper separating rod, a third driving mechanism and a paper separating front fork, wherein the crank connecting rod mechanisms are arranged in the fixed frame, one end of each crank connecting rod mechanism is connected with the paper separating rod, the other end of each crank connecting rod mechanism is connected with an output shaft of the third driving mechanism, the third driving mechanism drives the paper separating rod to reciprocate in the fixed frame through the crank connecting rod mechanisms, and the paper separating rod drives the paper separating front fork to be close to or far away from paper extraction.

According to some embodiments of the present invention, the supporting mechanism includes a fixing portion, the second driving mechanism drives the fixing portion to move up and down in the rack, the fixing portion is slidably connected to a paper supporting rod, the paper supporting rod is provided with a plurality of paper supporting front forks at equal intervals, and the paper supporting front forks and the paper separating front forks are staggered; the fixed part is provided with a plurality of fourth driving mechanisms, and the fourth driving mechanisms drive the paper supporting rods to be close to or far away from the paper extraction.

According to some embodiments of the present invention, a plurality of baffles are disposed at an end of the transportation mechanism close to the paper separation mechanism, the baffles are located in front of the paper supporting front fork and are staggered with the paper supporting front fork, the second driving mechanism drives the paper supporting front fork to be close to the surface of the transportation mechanism, and the fourth driving mechanism drives the paper supporting front fork to retreat, so that the paper is dropped onto the surface of the transportation mechanism.

According to some embodiments of the utility model, the transport mechanism comprises a conveyor belt, and a fifth drive mechanism drives the conveyor belt to rotate, and the conveyor belt is used for transporting the paper extraction in the equipment to the shaping mechanism.

According to some embodiments of the utility model, the shaping mechanism comprises a working frame, a pushing shaft is rotatably connected to the working frame, a pushing device is connected to the pushing shaft, and the pushing device is used for pushing the paper on the transportation mechanism into the shaping mechanism; one end of the pushing shaft is connected with an overturning part, one end of the overturning part is connected with the pushing shaft, the other end of the overturning part is rotatably connected with an output shaft of a sixth driving mechanism, and the sixth driving mechanism overturns the pushing device through the overturning part.

According to some embodiments of the utility model, the pushing device comprises a pushing plate and a seventh driving mechanism, the seventh driving mechanism is connected with the pushing shaft, an output shaft of the seventh driving mechanism is connected with the pushing plate, and the seventh driving mechanism pushes the paper on the conveyor belt into the shaping mechanism through the pushing plate.

According to some embodiments of the utility model, the working frame comprises a pressing plate and an eighth driving mechanism, the eighth driving mechanism is connected with the pressing plate, the pushing plate pushes the paper to be taken out below the pressing plate, and the eighth driving mechanism drives the pressing plate to be close to or far from the paper to be taken out.

According to some embodiments of the utility model, a transport belt is further disposed below the pressing plate, and the push plate pushes the paper to be drawn between the transport belt and the pressing plate; the transport belt is connected with a ninth driving mechanism, and the ninth driving mechanism drives the transport belt to transport the paper to be drawn after paper pressing.

According to some embodiments of the utility model, the transverse conveyor belt is connected to a ninth drive mechanism, which drives the transverse conveyor belt to transport the shaped paper extraction.

The direct-insertion full-automatic folding extraction type facial tissue machine according to some embodiments of the utility model has at least the following beneficial effects: through cut straightly formula separating mechanism separation paper extraction, improved the separation efficiency, the stability and the folding roughness of paper extraction, through plastic mechanism with paper extraction lateral drive to next process, shortened the required horizontal area of equipment transportation paper extraction, more be favorable to the factory building and arrange equipment.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic perspective view of a direct-insertion full-automatic folding extraction type facial tissue machine according to an embodiment of the present invention;

FIG. 2 is a partial side view of a fully in-line, fully automatic stack extraction facial tissue machine in accordance with an embodiment of the present invention;

FIG. 3 is a first schematic view of an in-line disconnect mechanism according to an embodiment of the present invention;

FIG. 4 is a second schematic view of an in-line disconnect mechanism according to an embodiment of the present invention;

FIG. 5 is a schematic view of a support mechanism according to an embodiment of the present invention;

FIG. 6 is a first schematic view of a transport mechanism and a shaping mechanism according to an embodiment of the present invention;

FIG. 7 is a second schematic view of a transport mechanism and a shaping mechanism according to an embodiment of the present invention;

FIG. 8 is an enlarged schematic view of portion A of FIG. 7;

fig. 9 is an enlarged schematic view of portion B of fig. 7;

FIG. 10 is a schematic view of a shaping mechanism according to an embodiment of the utility model.

Reference numerals:

a frame 100, a paper feeding mechanism 110, a folding mechanism 120, an air duct mechanism 130,

A direct insertion type separating mechanism 200, a first driving mechanism 210, a fixed frame 220, a paper separating rod 230, a paper separating front fork 231, a crank connecting rod mechanism 240, a third driving mechanism 250,

A supporting mechanism 300, a second driving mechanism 310, a fixing part 320, a paper supporting rod 330, a paper supporting front fork 331, a fourth driving mechanism 340,

The conveying mechanism 400, the baffle 410, the conveyor belt 420, the fifth driving mechanism 430, the shaping mechanism 500, the working frame 510, the pushing shaft 520, the turnover piece 521, the sixth driving mechanism 530, the pushing device 540, the pushing plate 541, the seventh driving mechanism 542, the pressing plate 550, the eighth driving mechanism 560, the conveying belt 570 and the ninth driving mechanism 580.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as the upper, lower, front, rear, left, right, top, bottom, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplicity of description, and does not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, the meaning of a plurality of means is one or more, the meaning of a plurality of means is two or more, and larger, smaller, larger, etc. are understood as excluding the number, and larger, smaller, inner, etc. are understood as including the number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless otherwise explicitly limited, terms such as arrangement, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the specific contents of the technical solutions.

An in-line fully automatic stack extraction facial tissue machine according to an embodiment of the present invention is described below with reference to fig. 1-10.

As shown in fig. 1-10, the direct-insertion full-automatic stack-separating and extracting facial tissue machine includes a frame 100, and further includes a paper feeding mechanism 110 and a folding mechanism 120, the paper feeding mechanism 110 is disposed above the frame 100, the folding mechanism 120 is disposed in the frame 100 and below the paper feeding mechanism 110 for folding facial tissues, specifically, the paper feeding mechanism 110 feeds the facial tissues to the folding mechanism 120 in the frame 100, and the facial tissues are folded into paper extracts by the folding mechanism 120, and the paper feeding mechanism 110 and the folding mechanism 120 are well known structures of those skilled in the art and will not be described in detail in the present invention.

Set up a branch paper mechanism in folding mechanism 120's below, divide paper mechanism including cut straightly formula separating mechanism 200 and supporting mechanism 300, transport mechanism 400 sets up in supporting mechanism 300's below, and transport mechanism 400's one end sets up in supporting mechanism 300 below, and the setting is extended from the front opening of equipment to the other end. The supporting mechanism 300 is used for supporting the folded paper extraction, the paper extraction falls into the supporting mechanism 300 after being folded from the folding mechanism 120, a second driving mechanism 310 drives the supporting mechanism 300 to move up and down in the rack 100, the paper extraction on the supporting mechanism 300 is stacked and increased, the second driving mechanism 310 drives the supporting mechanism 300 to gradually move downwards, and the stacking space is reserved for the paper extraction on the supporting mechanism 300.

When the paper is stacked to the designated number of draws, the inline separating mechanism 200 is inserted to the position of the paper drawing on the supporting mechanism 300, instead of the supporting mechanism 300 supporting the paper drawing falling from the folding mechanism 120, at this time, the paper drawing between the inline separating mechanism 200 and the supporting mechanism 300 is the paper drawing of the designated number of draws, and a first driving mechanism 210 drives the inline separating mechanism 200 to move up and down in the rack 100. Supporting mechanism 300 moves down and carries the in-process on the transport mechanism 400 to the paper extraction, first actuating mechanism 210 drives and cut straightly formula separating mechanism 200 and moves down, reserve sufficient space of piling up for folding mechanism 120's paper extraction, after supporting mechanism 300 is paper extraction conveyer belt transport mechanism 400, second actuating mechanism 310 drives supporting mechanism 300 and rises back to cut straightly formula separating mechanism 200 department, the bottom of bearing paper extraction, cut straightly formula separating mechanism 200 and roll back this moment, take out from the bottom of paper extraction, supporting mechanism 300 supports the paper extraction again this moment, repeat above-mentioned paper separation process and make the continuous transport of the paper extraction of the appointed number of piles to transport mechanism 400 on.

Transport mechanism 400 sets up the opening part in the dead ahead of equipment, adopts the design of openly going out paper, can reduce the area of the equipment left and right sides, and is also more loose to the area requirement of factory building, can put more equipment in limited space. The other end of the conveying mechanism 400 is provided with the shaping mechanism 500, after the bearing mechanism 300 conveys the paper to the conveying mechanism 400, the conveying mechanism 400 conveys the paper to the shaping mechanism 500 to finish the shaping step, compared with the time and lower efficiency of conveying the paper to the shaping station in a manual mode, the utility model adopts the direct-insertion full-automatic split-stack extraction type facial tissue machine combining the paper splitting station and the shaping station, which can effectively shorten the interval time in the paper splitting and shaping processes and improve the production efficiency.

In this embodiment, the first driving mechanism 210 and the second driving mechanism 310 both adopt a belt transmission form, a transmission gear on an output shaft of the driving mechanism and a transmission gear on the rack 100 are in belt transmission, the direct-insertion separation mechanism 200 and the supporting mechanism 300 are fixed on the belt through a clamping block, when the driving mechanism drives the belt to rotate, the direct-insertion separation mechanism 200 and the supporting mechanism 300 can synchronously move along with the belt, so that the direct-insertion separation mechanism 200 and the supporting mechanism 300 can move up and down, the direct-insertion separation mechanism 200 and the supporting mechanism 300 are independently driven by the first driving mechanism 210 and the second driving mechanism 310 respectively, and the motion sequence of the direct-insertion separation mechanism 200 and the supporting mechanism 300 is controlled by a control component of the device.

It should be understood that the belt drive of the first driving mechanism 210 and the second driving mechanism 310 is not the only embodiment, and in other embodiments, the in-line separating mechanism 200 and the racking mechanism 300 may be controlled to move up and down by a servo motor or a hydraulic drive according to actual production requirements. The structures of the first driving mechanism 210 and the second driving mechanism 310 are not described in detail in the present invention, and it should be understood that the structures of the first driving mechanism 210 and the second driving mechanism 310 can be flexibly changed without departing from the basic concept of the present invention, and all of them should be considered to be within the protection scope defined by the present invention.

In some embodiments of the present invention, as shown in fig. 2, an air duct mechanism 130 is further disposed on one side of the supporting mechanism 300, the air duct mechanism 130 is fixedly connected to the rack 100, the air duct mechanism 130 is used for blowing air to one side of the supporting mechanism 300 to keep the bottom of the paper extraction at the supporting mechanism 300 flat, in the present invention, the air duct mechanism 130 is an air duct fixedly connected to the rack 100, specifically, the air duct is disposed behind the supporting mechanism 300, and the air duct is disposed transversely to completely cover the range of the bottom of the paper extraction, so as to blow air to a large area of the bottom of the paper extraction, and the paper extraction is close to the bottom.

In some embodiments of the present invention, as shown in fig. 1 to 4, the in-line separating mechanism 200 includes a fixed frame 220 and a paper separating rod 230 slidably connected in the fixed frame 220, specifically, two ends of the paper separating rod 230 are slidably connected with two sides of the fixed frame 220 through slide rails, two ends of the paper separating rod 230 are guide blocks, and two ends of the fixed frame 220 are guide rails, the guide blocks are sleeved in the guide rails, so as to drive the paper separating rod 230 to slide back and forth in the fixed frame 220 and to be close to or far from the paper extraction below the folding mechanism 120. The first driving mechanism 210 drives the fixed frame 220 to move up and down in the rack 100, and the fixed frame 220 is a frame body composed of a plurality of connecting pieces and carrying related components of the in-line separation mechanism 200 in this embodiment.

The paper separating rod 230 is provided with a plurality of paper separating front forks 231 at equal intervals, specifically, the paper separating front forks 231 are fully arranged on the paper separating rod 230, the paper separating front forks 231 are separated by the same distance, the paper separating front forks 231 are in an L shape, the long sides of the paper separating front forks 231 are fixedly connected with the paper separating rod 230, the short sides horizontally extend outwards from one ends of the long sides, the long sides are perpendicular to the short sides, the tail end thickness of the short sides of the paper separating front forks 231 is gradually reduced, so that the short sides of the paper separating front forks 231 are smoother when being inserted into paper, and the paper separating front forks 231 are prevented from enabling the paper extraction on the upper end face and the paper extraction on the lower end face to generate wrinkles.

The crank link mechanisms 240 are arranged in the fixed frame 220, one end of each crank link mechanism 240 is connected with the paper separating rod 230, the other end of each crank link mechanism 240 is connected with an output shaft of a third driving mechanism 250, and the third driving mechanism 250 drives the paper separating rods 230 to reciprocate in the fixed frame 220 through the crank link mechanisms 240, so that the paper separating rods 230 drive the paper separating front forks 231 to be close to or far away from the paper extraction. Specifically, the third driving mechanism 250 is a servo motor, which is fixedly connected to the fixed frame 220, one end of the crank link mechanism 240 is sleeved on the output shaft, in this embodiment, the number of the crank link mechanisms 240 is two, one group is respectively disposed on two sides of the middle portion of the paper separating rod 230, the output shaft is sleeved with the two crank link mechanisms 240, the third driving mechanism 250 drives the two crank link mechanisms 240 to synchronously work, the paper separating rod 230 is pushed to be close to or far away from the paper to be taken under the folding mechanism 120, when the paper separating front fork 231 is inserted into the paper to be taken, the paper is supported by the paper separating front fork 231, and at this time, the supporting mechanism 300 carries the paper to the transportation mechanism 400 below the paper separating front fork 231.

It should be understood that the number of crank link mechanisms 240 is not the only embodiment, and in other embodiments, a different number of crank link mechanisms may be provided according to the actual length of the paper separating rod 230, and when the length of the paper separating rod 230 is longer, more than three sets of crank link mechanisms 240 may be provided to drive the paper separating rod 230, so that the output shaft of the third driving mechanism 250 can distribute the torque evenly to each set of crank link mechanisms 240, and better drive the paper separating front fork 231 to be inserted into the paper extraction. The number of crank link mechanisms 240 is not described in detail in the present invention, and it should be understood that the number of crank link mechanisms 240 can be flexibly changed without departing from the basic concept of the present invention, and therefore, the number of crank link mechanisms is considered to be within the protection scope defined by the present invention.

In some embodiments of the present invention, as shown in fig. 1, 2 and 5, the supporting mechanism 300 includes a fixing portion 320, the second driving mechanism 310 drives the fixing portion 320 to move up and down in the frame 100, specifically, two ends of the fixing portion 320 are provided with clamping blocks capable of clamping a belt of the second driving mechanism 310, so as to achieve the up and down movement of the fixing portion 320, a paper supporting rod 330 is slidably connected to the fixing portion 320, a plurality of paper supporting front forks 331 are disposed on the paper supporting rod 330 at equal intervals, the interval between the paper supporting front forks 331 is equal to the interval between the paper separating front forks 231, the paper supporting front forks 331 on the paper supporting rod 330 and the paper separating front forks 231 on the paper separating rod 230 are staggered, that is, the paper supporting front forks 331 and the paper separating front forks 231 can be inserted into respective gaps, so that the paper supporting front forks 331 and the paper separating front forks 231 can alternately support the paper.

The fixing portion 320 is provided with a plurality of fourth driving mechanisms 340, the fourth driving mechanisms 340 drive the paper supporting rod 330 to approach or be away from the paper extraction, specifically, two ends of the fixing portion 320 are provided with guide rails, two ends of the paper supporting rod 330 are provided with guide blocks, the guide blocks are slidably connected with the guide rails, and a push rod of the fourth driving mechanisms 340 drives the guide blocks to slide on the guide rails, so that the paper supporting rod 330 approaches or is away from the paper extraction below the folding mechanism 120. In this embodiment, hold in the palm the structure of paper front fork 331 and divide paper front fork 231 similar, be the L type, long limit and support paper pole 330 fixed connection, and the minor face extends and the perpendicular to is long limit from long limit one end, but the top on long limit still up extends one section distance, when making the paper extraction fall on the minor face, the intersection of long limit and minor face can play spacing effect. In this embodiment, the fourth driving mechanism 340 is a cylinder, and in other embodiments, the paper supporting rod 330 may be driven by a hydraulic drive or a screw. The structure of the fourth driving mechanism 340 is not described in detail in the present invention, and it should be understood that the structure of the fourth driving mechanism 340 can be flexibly changed without departing from the basic concept of the present invention, and all of them should be considered to be within the protection scope defined by the present invention.

In some embodiments of the present invention, as shown in fig. 2, 6 and 7, a plurality of baffles 410 are disposed at an end of the transportation mechanism 400 close to the paper separating mechanism, the baffles 410 are located in front of the paper supporting front fork 331 and are staggered with the paper supporting front fork 331, the second driving mechanism 310 drives the paper supporting front fork 331 to be close to the surface of the transportation mechanism 400, and the fourth driving mechanism 340 drives the paper supporting front fork 331 to move backward, so that the paper is dropped onto the surface of the transportation mechanism 400.

Specifically, the paper separating front fork 231 and the paper supporting front fork 331 work cooperatively, firstly the paper supporting front fork 331 supports the paper to be taken under the folding mechanism 120, the paper is continuously folded onto the paper supporting front fork 331, the paper supporting front fork 331 moves downwards and slowly under the driving of the second driving mechanism 310, a space for folding the paper to be taken is continuously reserved for the folding mechanism 120, after the paper is folded to a specified number of times, the third driving mechanism 250 drives the paper separating front fork 231 to be inserted into the paper to be taken instead of the paper supporting front fork 331 to support the paper, at this time, the paper separating front fork 231 moves downwards and slowly under the driving of the first driving mechanism 210, the paper supporting front fork 331 moves to the transportation mechanism 400 under the quick driving of the second driving mechanism 310, when the paper supporting front fork 331 reaches the surface of the transportation mechanism 400, the fourth driving mechanism 340 drives the paper separating front fork 231 to move backwards, at this time, due to the action of the baffle 410, the paper supporting front fork 331 moves backwards, and the paper remains on the transportation mechanism 400, after the paper supporting front fork 331 retreats, the second driving mechanism 310 drives the paper supporting front fork 331 to return to the lower side of the paper separating front fork 231, and meanwhile, the fourth driving mechanism 340 pushes the paper separating front fork 231 to reset, so as to take over the paper separating front fork 231 to support the paper extraction, and thus the paper separating step is completed.

In some embodiments of the present invention, as shown in fig. 2, 6 and 7, the transport mechanism 400 includes a belt 420, and a fifth driving mechanism 430 drives the belt 420 to rotate, and the belt 420 is used for transporting the paper in the device to the shaping mechanism 500. Specifically, after the paper is dropped onto the end surface of the conveyor belt 420, the fifth driving mechanism 430 drives the conveyor belt 420 to transport the paper from the inside of the apparatus to the reforming mechanism 500 outside the apparatus along the exit of the front surface.

In some embodiments of the present invention, as shown in fig. 6-9, the shaping mechanism 500 includes a work frame 510, a pushing shaft 520 rotatably connected to the work frame 510, a pushing device 540 connected to the pushing shaft 520, the pushing device 540 fixedly connected to the pushing shaft 520, the pushing device 540 for pushing the paper at the upper end of the transportation mechanism 400 into the shaping mechanism 500. In order to prevent the pushing device 540 from blocking the paper from entering the shaping mechanism 500, one end of the pushing shaft 520 is connected with the turning member 521, the turning member 521 is a strip-shaped plate, one end of the turning member 521 is connected with the pushing shaft 520, and the other end of the turning member 521 is rotatably connected with an output shaft of the sixth driving mechanism 530, specifically, the sixth driving mechanism 530 is a cylinder, a push rod of the cylinder is rotatably connected with the turning member 521, the pushing shaft 520 is fixedly connected with the turning member 521, and the cylinder can drive the pushing shaft 520 to rotate by pushing the turning member 521, thereby turning over the pushing device 540 on the pushing shaft 520, in order to enable the sixth driving mechanism 530 to turn over the pushing device 540, when the cylinder of the sixth driving mechanism 530 is disposed along the same vertical line as the pushing shaft 520, the sixth driving mechanism 530 cannot push the tilting member 521, the air cylinder of the sixth driving mechanism 530 is disposed along a different vertical line from that of the push shaft 520. When the paper is transported to the end of the conveyor belt 420, the sixth driving mechanism 530 drives the pushing device 540 to turn to the paper side, and the paper is pushed into the shaping mechanism 500 by the pushing device 540.

In some embodiments of the present invention, as shown in fig. 7-9, the pushing device 540 includes a pushing plate 541 and a seventh driving mechanism 542, the seventh driving mechanism 542 is connected to the pushing shaft 520, an output shaft of the seventh driving mechanism 542 is connected to the pushing plate 541, when the pushing device 540 is turned to the paper extraction side, the pushing plate 541 contacts with the paper extraction side, and at this time, the seventh driving mechanism pushes the pushing plate 541, and the pushing plate 541 pushes the paper extraction from the conveyor belt 420 into the shaping mechanism 500. Specifically, the pushing device 540 includes a carrier plate, the carrier plate is tightly connected to the pushing shaft 520, the seventh driving mechanism 542 is mounted on the carrier plate, the pushing plate 541 is connected to the seventh driving mechanism 542, and the shaping step is performed after the paper is pushed into the shaping mechanism 500.

In some embodiments of the present invention, as shown in fig. 6, 7 and 10, the work frame 510 includes a pressing plate 550 and an eighth driving mechanism 560, the eighth driving mechanism 560 is connected to the pressing plate 550, the pushing plate 541 pushes the paper to the lower side of the pressing plate 550, and the eighth driving mechanism 560 drives the pressing plate 550 to approach or move away from the paper, and the shaping step is performed near the paper. A transport belt 570 is further disposed below the pressing plate 550, specifically, the pushing plate 541 pushes the paper to be drawn between the transport belt 570 and the pressing plate 550, the transport belt 570 is connected to a ninth driving mechanism 580, and after the paper is drawn and finished with the shaping step, the ninth driving mechanism 580 drives the transport belt 570 to transport the paper from the shaping mechanism 500 to the next station.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the utility model have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A direct-insertion full-automatic folding extraction type facial tissue machine comprises a frame (100); it is characterized by comprising:

the paper feeding mechanism (110), the said paper feeding mechanism (110) is set up on the said framework (100);

the folding mechanism (120) is arranged in the rack (100), is positioned below the paper feeding mechanism (110), and is used for folding the facial tissues;

the paper separating mechanism is positioned below the folding mechanism (120), the paper separating mechanism comprises an in-line type separating mechanism (200) and a supporting mechanism (300), the supporting mechanism (300) is used for supporting the folded paper extraction, the separating mechanism is used for separating the paper extraction according to the specified number of paper extractions, a second driving mechanism (310) drives the supporting mechanism (300) to move up and down in the rack (100), and a first driving mechanism (210) drives the in-line type separating mechanism (200) to move up and down in the rack (100);

one end of the conveying mechanism (400) is arranged below the supporting mechanism (300), and the other end of the conveying mechanism (400) extends at the front opening of the equipment;

the shaping mechanism (500), the shaping mechanism (500) is positioned at the other end of the conveying mechanism (400), the shaping mechanism (400) is provided with a transverse conveying belt (570), and the transverse conveying belt (570) is used for transversely conveying the paper extraction to the next process;

the supporting mechanism (300) is used for conveying the separated paper extraction to the conveying mechanism (400), and the conveying mechanism (400) is used for conveying the paper extraction to the shaping mechanism (500).

2. An in-line full-automatic stack extraction facial tissue machine according to claim 1, wherein the in-line separating mechanism (200) comprises a fixed frame (220) and a paper separating rod (230) slidably connected in the fixed frame (220), so that the fixed frame (220) is driven by a first driving mechanism (210) to move up and down in the rack (100), and a plurality of paper separating front forks (231) are arranged on the paper separating rod (230) at equal intervals;

the paper separating device is characterized in that the plurality of crank connecting rod mechanisms (240) are arranged in the fixed frame (220), one ends of the crank connecting rod mechanisms (240) are connected with the paper separating rods (230), the other ends of the crank connecting rod mechanisms are connected with an output shaft of a third driving mechanism (250), the third driving mechanism (250) drives the paper separating rods (230) to reciprocate in the fixed frame (220) through the crank connecting rod mechanisms (240), and the paper separating rods (230) drive the paper separating front forks (231) to be close to or far away from paper extraction.

3. The direct-insertion full-automatic stacking extraction facial tissue machine according to claim 2, wherein the supporting mechanism (300) comprises a fixing portion (320), the second driving mechanism (310) drives the fixing portion (320) to move up and down in the frame (100), the fixing portion (320) is slidably connected with a paper supporting rod (330), a plurality of paper supporting front forks (331) are arranged on the paper supporting rod (330) at equal intervals, and the paper supporting front forks (331) and the paper separating front forks (231) are staggered;

the fixing part (320) is provided with a plurality of fourth driving mechanisms (340), and the fourth driving mechanisms (340) drive the paper supporting rod (330) to be close to or far away from the paper extraction.

4. An in-line full-automatic stack extraction type facial tissue machine according to claim 3, wherein a plurality of baffles (410) are arranged at one end of the transportation mechanism (400) close to the paper separation mechanism, the baffles (410) are positioned in front of the paper supporting front fork (331) and staggered with the paper supporting front fork (331), the second driving mechanism (310) drives the paper supporting front fork (331) to be close to the surface of the transportation mechanism (400), and the fourth driving mechanism (340) drives the paper supporting front fork (331) to retreat, so that the extracted paper falls on the surface of the transportation mechanism (400).

5. An in-line fully automatic stack extraction facial tissue machine according to claim 4, wherein said transport mechanism (400) comprises a conveyor belt (420), a fifth drive mechanism (430) driving said conveyor belt (420) to rotate, said conveyor belt (420) being used to transport the paper extraction in the machine to said reforming mechanism (500).

6. An in-line full-automatic stack extraction facial tissue machine according to claim 1, wherein the shaping mechanism (500) comprises a working frame (510), a pushing shaft (520) is rotatably connected to the working frame (510), a pushing device (540) is connected to the pushing shaft (520), and the pushing device (540) is used for pushing the paper extraction on the transportation mechanism (400) into the shaping mechanism (500);

one end of the pushing shaft (520) is connected with a turning piece (521), one end of the turning piece (521) is connected with the pushing shaft (520), the other end of the turning piece is rotationally connected with an output shaft of a sixth driving mechanism (530), and the sixth driving mechanism (530) turns over the pushing device (540) through the turning piece (521).

7. An in-line full-automatic stack extraction facial tissue machine according to claim 6, wherein the pushing device (540) comprises a pushing plate (541) and a seventh driving mechanism (542), the seventh driving mechanism (542) is connected with the pushing shaft (520), an output shaft of the seventh driving mechanism (542) is connected with the pushing plate (541), and the seventh driving mechanism (542) pushes the paper on the conveyor belt (420) into the shaping mechanism (500) through the pushing plate (541).

8. An in-line fully automatic stack extraction facial tissue machine according to claim 7, wherein the work frame (510) comprises a pressing plate (550) and an eighth driving mechanism (560), the eighth driving mechanism (560) is connected with the pressing plate (550), the pushing plate (541) pushes the paper to be extracted below the pressing plate (550), and the eighth driving mechanism (560) drives the pressing plate (550) to approach or move away from the paper to be extracted.

9. An in-line fully automatic stack extraction towel dispenser according to claim 8, characterized in that the transverse conveyor belt (570) is connected to a ninth drive mechanism (580), and the ninth drive mechanism (580) drives the transverse conveyor belt (570) to transport the shaped paper extract.

10. An in-line full-automatic stack extraction facial tissue machine according to any one of claims 1 to 9, wherein an air duct mechanism (130) is disposed at one side of the supporting mechanism (300), the air duct mechanism (130) is fixedly connected to the frame (100), and the air duct mechanism (130) is used for blowing air to one side of the supporting mechanism (300) to keep the bottom of the extraction paper at the supporting mechanism (300) flat.

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