CN211594489U - Automatic packing equipment for label - Google Patents

Abstract

The utility model belongs to the technical field of the anesthesia package, especially, relate to an automatic dress box equipment of welt. The automatic adhesive tape cutting device comprises a mounting frame, a feeding mechanism, a cutting mechanism and an unloading mechanism, wherein the feeding mechanism is arranged on the side portion of the cutting mechanism and used for conveying adhesive tapes on a material roll to the cutting mechanism, the cutting mechanism is used for cutting the adhesive tapes conveyed by the feeding mechanism into adhesive tapes, and the unloading mechanism is arranged beside the cutting mechanism and used for loading the adhesive tapes cut by the cutting mechanism into an object box. Feeding mechanism, cut mechanism and unloading mechanism three and mutually support, cut into the adhesive tape of lapping and pack it into in putting the thing box again after the strip to realize the automatic dress box operation of medical strip, with replacing artifical dress box, can save the labour cost, improve the operating efficiency, and the operation flow of strip dress box can go on under clean, aseptic environment completely, thereby the whole production quality of assurance anesthesia package that can be better.

Description

Automatic packing equipment for label

Technical Field

The utility model belongs to the technical field of the anesthesia package, especially, relate to an automatic dress box equipment of welt.

Background

The anesthesia bag is a medical tool commonly used in the operation process and is commonly used for performing anesthesia on the operation position of a patient before the operation. Generally, the anesthesia package mainly includes extranal packing and the thing box of putting of encapsulating in the extranal packing to and place the anesthesia instrument that is relevant with the anesthesia work in putting the thing box, specifically include air cleaner, disposable injection instrument, disinfection direct brush, aseptic hole piece of cloth, pjncture needle, epidural catheter, pipe joint, rubber medical gloves, medical gauze and medical adhesive tape stick etc.. Wherein, the medical adhesive tape strip is used for fixing the puncture needle or other pasting operations in the anesthesia process, etc.

Among the prior art, need cut into the adhesive tape of lapping into the strip that the size is suitable earlier, then the manual work is packed into the strip and is put the thing box into, so, the production of anesthesia package needs to drop into a large amount of manual work, the labour cost is high, work efficiency is low, and, manual work is difficult to guarantee that the strip is aseptic completely, still probably bring other debris into the packing carton during the operation such as hair and pollute other anesthesia instruments, still need add special quality testing link after the manual packing box of strip, carry out whole quality control and disinfection to the anesthesia package, the extension of certain degree production technology, production and operating cost improve.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic dress box equipment of strip of pasting aims at solving and adopts the manual work to adorn the technical problem that the labour cost is high, the operating efficiency is low to medical strip of pasting among the prior art.

In order to achieve the above object, the utility model adopts the following technical scheme: the utility model provides an automatic dress box equipment of welt, includes the mounting bracket, install in feeding mechanism on the mounting bracket and cut the mechanism to and unloading mechanism, feeding mechanism set up in cut the lateral part of mechanism, and be used for rolling up the material adhesive tape carry extremely cut the mechanism, cut the mechanism be used for with the adhesive tape that feeding mechanism carried cuts into the welt, unloading mechanism locates cut the side of mechanism, and be used for with the welt that cuts the mechanism is packed into and is put the thing box.

Furthermore, the feeding mechanism comprises a plurality of material mounting shafts and a plurality of groups of feeding assemblies in one-to-one correspondence with the material mounting shafts, each material mounting shaft is used for mounting a material roll, a material conveying channel for conveying rubber strips is arranged on the mounting frame, and the discharge end of each feeding assembly is communicated with the material conveying channel and used for conveying the rubber strips mounted on the material rolls on each material mounting shaft to the material conveying channel in sequence.

Further, the feeding assembly comprises a feeding roller set and a feeding plate, the feeding roller set is used for providing feeding power, the feeding plate is used for limiting the feeding direction, a guide chute is formed in the feeding plate and used for allowing rubber strips to be matched with and penetrate through the feeding plate and is parallel to the conveying direction of the rubber strips, the guide chute is provided with a feeding hole and a discharging hole which are arranged oppositely, the feeding roller set is rotatably installed on the mounting frame and is close to the feeding hole, and the discharging hole is in butt joint with the conveying channel and forms the discharging end of the feeding assembly.

Further, the feed inlet is the gradual broadness mouth that the bore gradually enlarges, just the heavy-calibre end orientation of the gradual broadness mouth the feed roller set sets up.

Furthermore, the feeding mechanism comprises two material mounting shafts and two groups of feeding components, and the two groups of feeding components are respectively arranged on the upper side and the lower side of the feeding channel;

the feeding mechanism is characterized in that an upper introducing plate and a lower introducing plate are further arranged between the feeding channel and the feeding mechanism, the upper introducing plate and the lower introducing plate are respectively used for guiding two adhesive tapes conveyed by the feeding assemblies to enter the feeding channel, the upper introducing plate and the lower introducing plate are arranged at intervals and form a material guiding gap for the adhesive tapes to penetrate through, the inlet of the material guiding gap is connected with the two discharge holes of the guide chute, and the outlet of the material guiding gap is connected with the inlet of the feeding channel.

Further, automatic dress box equipment of welt still including being used for to getting into the half-cut mechanism of the adhesive tape processing half-tangent line in the defeated material passageway, be provided with two curb plates along parallel adhesive tape direction of delivery interval on the mounting bracket, two press from both sides between the curb plate and be equipped with the support slat that is used for bearing the adhesive tape, hold in the palm the slat and two the curb plate encloses jointly and establishes formation defeated material passageway, half-cut mechanism install in the defeated material passageway, feeding mechanism with cut the mechanism set up respectively in the both ends of holding in the palm the slat.

Further, the half-cutting mechanism comprises a half-cutter, a cutter fixing shaft and a half-cutting driving motor, the half-cutter is fixed on the cutter fixing shaft, a cutter edge of the half-cutter is abutted to the adhesive tape, the cutting depth of the cutter edge of the half-cutter is equal to the thickness of an adhesive layer on the adhesive tape, the cutter fixing shaft is rotatably installed on one side plate, the half-cutting driving motor is installed at the bottom, away from the adhesive tape, of the supporting strip plate and is in driving connection with the cutter fixing shaft, and the half-cutting driving motor drives the cutter fixing shaft to rotate so as to drive the half-cutter to rotate and cut on the adhesive tape to form a half-cut line.

Further, it includes cutter, lower cutter, goes up driving motor and driving motor down to cut the mechanism, be provided with on the mounting bracket with adhesive tape direction of delivery looks vertically cut the mounting panel, it keeps away the vacancy to cut the ejection of compact that is formed with on the mounting panel and supplies the adhesive tape to wear out, go up the cutter with down the equal slidable mounting of cutter in cut on the mounting panel, go up the cutter with down the cutter is located respectively the ejection of compact keeps away the upper and lower both sides in vacancy, go up driving motor with down driving motor all install in cut on the mounting panel, and respectively with go up the cutter with down the cutter drive is connected, with the drive go up the cutter with down the cutter moves in opposite directions, thereby cuts the follow the ejection of compact keeps away the adhesive tape that the vacancy was worn out.

Further, automatic dress box equipment of welt is still including locating cut the mechanism with destatic mechanism between the unloading mechanism, destatic mechanism including be used for with the welt that cuts the mechanism conveying to the conveyer belt of unloading mechanism and at least one destatic ion fan that is used for getting rid of welt static, at least one destatic ion fan hang and locate the top of conveyer belt.

Further, unloading mechanism includes absorption claw, rotor arm and rotating electrical machines, the absorption claw install in on the rotor arm, the suspension is equipped with on the mounting bracket hangs the arm, the rotating electrical machines is fixed in hang the bottom of arm, the output shaft of rotating electrical machines with the rotor arm is connected in order to drive the rotor arm is rotatory, and drives the absorption claw in the unloading end of conveyer belt reaches and puts reciprocating motion between the thing box to follow the welt the conveyer belt shifts to put in the thing box.

The utility model provides an above-mentioned one or more technical scheme in the automatic dress box equipment of welt have one of following technological effect at least: the feeding mechanism is arranged for conveying adhesive tapes on the material roll, the cutting mechanism is arranged for cutting the adhesive tapes conveyed by the feeding mechanism into adhesive tapes with proper sizes, and the blanking mechanism is arranged for blanking the adhesive tapes cut by the cutting mechanism and loading the adhesive tapes into the storage box. So, feeding mechanism, the mechanism of cutting and unloading mechanism three mutually support, cut into the adhesive tape of lapping and pack it into after putting the thing box into again to realize the automatic dress box operation of medical strip, with replacing artifical dress box, can save labour's cost, improve the operating efficiency, and the operation flow of strip dress box can go on under clean, aseptic environment completely, thereby the whole production quality of assurance anesthesia package that can be better.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.

Fig. 1 is a schematic structural view of an automatic box packing device for a label according to an embodiment of the present invention;

FIG. 2 is a partial cross-sectional view of the automatic strip cartoning apparatus shown in FIG. 1;

FIG. 3 is an enlarged schematic view at A in FIG. 2;

FIG. 4 is an enlarged schematic view at B of FIG. 2;

FIG. 5 is a cross-sectional view of the half-cut mechanism of the automatic strip-affixing box-packing apparatus shown in FIG. 1;

FIG. 6 is a side view of the half-cut mechanism of the automatic strip-sealing cartoning apparatus shown in FIG. 1;

FIG. 7 is a schematic structural view of a cutting mechanism of the automatic strip attaching and boxing apparatus shown in FIG. 1;

FIG. 8 is a schematic structural view of a static electricity removing mechanism of the automatic strip attaching and box packing device shown in FIG. 1;

fig. 9 is a schematic structural view of a blanking mechanism of the automatic strip attaching and boxing apparatus shown in fig. 1.

Wherein, in the figures, the respective reference numerals:

a10-mounting rack A11-side plate

A13-supporting strip board A14-upper lead-in board A15-lower lead-in board

A16-material guiding gap A17-first mounting plate A18-second mounting plate

A19-supporting arm A20-feeding mechanism A21-material mounting shaft

A22-feeding assembly A30-material conveying assembly A31-material conveying roller set

A32-transmission gear A33-belt pulley A34-transmission belt

A35-material transfer motor A36-micrometer screw A37-half-cutting mounting plate

A40-half cutting mechanism A41-half cutter

A42 cutter fixing shaft A43 half-cutting driving motor A50 cutting mechanism

A51-upper cutter A52-lower cutter A53-upper driving motor

A54-lower driving motor A55-cutting mounting plate A60-blanking mechanism

A61-adsorption claw A62-rotating arm A63-rotating motor

A64-suspension arm A65-adsorption cylinder A66-adsorption mounting plate

A67-adsorption inductor A70-static electricity removing mechanism A71-conveyor belt

A72 electrostatic-removing ion fan A73 wind guide cover A100 material roll

A101, an adhesive tape A102, a sticker A103, a material conveying channel

A111-connecting lug A131-mounting notch A191-U-shaped notch

A200-storage box A221-feeding roller group A222-feeding plate

A223, a material guide groove A224, a material inlet A225 and a material outlet

A226-feeding motor A227-feeding driving gear A228-feeding driven gear

A229-tension wheel A311-upper material-conveying roller A312-lower material-conveying roller

A371-location ear A551-the discharge avoids the vacancy A2211-the upper feeding roller

A2212 — lower feed roll.

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 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 fig. 1 to 9 are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being 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.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

As shown in fig. 1-9, an embodiment of the present invention provides an automatic packing device for medical strips, which is suitable for packing medical strips a102 into corresponding storage boxes a 200. Specifically, as shown in fig. 1, the automatic strip sticker packing device includes an installation frame a10, a feeding mechanism a20 and a cutting mechanism a50 which are installed on the installation frame a10, and a blanking mechanism a60, the feeding mechanism a20 is arranged on a side portion of the cutting mechanism a50 and used for conveying a rubber strip a101 on a material roll a100 to the cutting mechanism a50, the cutting mechanism a50 is used for cutting the rubber strip a101 conveyed by the feeding mechanism a20 into strip stickers a102, and the blanking mechanism a60 is arranged at a side of the cutting mechanism a50 and used for packing the strip stickers a102 cut by the cutting mechanism a50 into a storage box a 200.

The utility model discloses automatic dress box equipment of label, it sets up feeding mechanism A20 and is used for carrying the adhesive tape A101 on rolling up material A100, sets up and cuts adhesive tape A101 that mechanism A50 carried feeding mechanism A20 and cuts into the suitable label A102 of size, sets up unloading mechanism A60 and will cut label A102 that mechanism A50 cut and carry out the unloading and pack it into and put in thing box A200. So, feeding mechanism A20, cut mechanism A50 and unloading mechanism A60 three and mutually support, the adhesive tape A101 with the lapping is cut into behind the welt A102 and is packed into again and put thing box A200, thereby realize the automatic dress box operation of medical welt A102, with replacing the manual work dress box, can save labour cost, improve the operating efficiency, and the job flow of welt A102 dress box can go on under clean, aseptic environment completely, thereby the whole production quality of assurance anesthesia package that can be better.

In another embodiment of the present invention, as shown in fig. 1 and fig. 2, the feeding mechanism a20 includes a plurality of material mounting shafts a21 and a plurality of feeding assemblies a22 corresponding to the material mounting shafts a21 one by one, each material mounting shaft a21 is used for mounting a material roll a100, a material conveying channel a103 for conveying a rubber strip a101 is provided on the mounting frame a10, a discharging end of each feeding assembly a22 is communicated with the material conveying channel a103, and is used for sequentially conveying the rubber strips a101 mounted on the material roll a100 on each material mounting shaft a21 to the material conveying channel a103, specifically, a winding drum of the material roll a100 is inserted on the material mounting shaft a21, and the material roll a100 can rotate on the material mounting shaft a21 to release the rubber strip a101 wound on the winding drum, and the feeding assembly a22 conveys the released rubber strip a101 to the material conveying channel a 103.

Thus, a plurality of material mounting shafts A21 and a plurality of groups of feeding assemblies A22 are arranged on the mounting rack A10, the discharging end of each group of feeding assemblies A22 is communicated with the material conveying channel A103, when the adhesive tape feeding device is used, a plurality of material rolls A100 are respectively mounted on the corresponding material mounting shafts A21, adhesive tapes A101 on each material roll A100 can be sequentially conveyed to the material conveying channel A103 by the corresponding feeding assemblies A22, after all the adhesive tapes A101 on one material roll A100 are used, a material roll A100 on the other material mounting shaft A21 can be used as a new incoming material source, and the adhesive tapes A101 are continuously conveyed to the material conveying channel A103 by the corresponding feeding assemblies A22, so that after one material roll A100 is used up, a new material roll A100 does not need to be waited to be replaced, only the material roll A100 on the other material mounting shaft A21 needs to be switched, a plurality of material rolls A100 on a plurality of material rolls A21 can be used as the incoming material sources of the adhesive tapes A101 in sequence, and the feeding mechanism A20 can still perform material changing operation at the same time, the feeding mechanism A20 supplies materials uninterruptedly, and the forming efficiency of the adhesive tape A102 is effectively improved.

In another embodiment of the present invention, as shown in fig. 2 to 4, the feeding assembly a22 includes a feeding roller set a221 for providing feeding power and a feeding plate a222 for limiting the feeding direction, the feeding plate a222 is provided with a guiding chute a223 for the adhesive tape a101 to fit through and to be arranged parallel to the conveying direction of the adhesive tape a101, the guiding chute a223 has a feeding port a224 and a discharging port a225 arranged oppositely, the feeding roller set a221 is rotatably installed on the mounting frame a10 and is arranged close to the feeding port a224, and the discharging port a225 is butted with the conveying channel a103 and forms a discharging end of the feeding assembly a 22; so, adhesive tape A101 passes baffle box A223 on feed plate A222 and is carried to defeated material passageway A103 in, baffle box A223 can play limiting displacement to adhesive tape A101's direction of delivery, avoids adhesive tape A101 skew direction of delivery in transportation to guarantee that adhesive tape A101 can be in the same direction as straight entering defeated material passageway A103.

Further, in this embodiment, as shown in fig. 3, the feeding opening a224 is a gradually wide opening with a gradually increasing aperture, and the large aperture end of the gradually wide opening is disposed toward the feeding roller set a221, so that the adhesive tape a101 can more conveniently enter the guiding chute a 223.

In another embodiment of the present invention, as shown in fig. 1 and fig. 2, the feeding roller set a221 includes an upper feeding roller a2211 and a lower feeding roller a2212 for holding the adhesive tape a101, the feeding assembly a22 further includes a feeding motor a226, a feeding driving gear a227 and a feeding driven gear a228, the feeding driven gear a228 is fixedly connected to the roller shaft of the lower feeding roller a2212, the feeding driving gear a227 is fixedly connected to the output shaft of the feeding motor a226, the feeding driving gear a227 is engaged with the feeding driven gear a228, the feeding motor a226 drives the feeding driving gear a227 to rotate, so as to drive the lower feeding roller a2212 to rotate, the lower feeding roller a2212 is a driving roller, the upper feeding roller a2211 is a floating roller and is used for pressing the adhesive tape a101, so that the upper feeding roller a2211 rotates reversely under the action of friction force, thereby making the adhesive tape a101 held between the upper feeding roller a2211 and the lower feeding roller a2212 move along the conveying direction.

Further, in this embodiment, as shown in fig. 2 to 4, the upper feeding roller a2211 and the lower feeding roller a2212 are symmetrically disposed on the upper side and the lower side of the feeding plate a222, so that the rubber strip a101 penetrates into the material guiding groove a223 from the middle of the feeding hole a224, and thus, the rubber strip a101 does not contact with the feeding plate a222 when entering the material guiding groove a223, thereby avoiding the abrasion of the rubber strip a 101.

In another embodiment of the utility model, as shown in fig. 2, feeding unit a22 still includes position adjustable take-up pulley a229, specifically, take-up pulley a229 is adjustable along the direction of parallel adhesive tape a101, i.e. the horizontal direction position in fig. 2, take-up pulley a229 sets up between feed roller group a221 and material installation axle a21, and material installation axle a21, the pivot of take-up pulley a229 and the roller three parallel arrangement of feed roller group a221, adhesive tape a101 from the release of material book a100 bypasses take-up pulley a229 after, again via feed roller group a221 centre gripping transport, so, through adjusting the distance between take-up pulley 229 a and the feed roller group a221, can adjust adhesive tape a 101's the degree, avoid adhesive tape a101 to relax and influence the normal transport of adhesive tape a 101.

Specifically, in this embodiment, as shown in fig. 1 and 2, a first mounting plate a17 and a second mounting plate a18 are disposed on the mounting frame a10 at intervals, the feeding mechanism a20 is interposed between the first mounting plate a17 and the second mounting plate a18, opposite end portions of the upper feeding roller a2211 and the lower feeding roller a2212 are respectively connected to the first mounting plate a17 and the second mounting plate a18, and the feeding motor a226 is mounted on an outer side portion of the first mounting plate a 17/the second mounting plate a 18. Two support arms A19 which are opposite to each other are further convexly arranged on the first mounting plate A17 and the second mounting plate A18 respectively, the material mounting shaft A21 is connected between the two support arms A19 in a rotating mode, specifically, U-shaped notches A191 are formed in the two support arms A19 in the vertical direction, two opposite end portions of the material mounting shaft A21 are arranged in the two U-shaped notches A191 respectively, the material mounting shaft A21 is convenient to disassemble and assemble, the material roll A100 is easy to replace, and when the material roll A100 is mounted on the material mounting shaft A21, the material mounting shaft A21 abuts against the bottom of the U-shaped notch A191 under the gravity action of the material roll A100, so that the material mounting shaft A21 is prevented from being separated from the U-shaped notch A191.

In another embodiment of the present invention, as shown in fig. 1 and fig. 2, the feeding mechanism a20 includes two material installation shafts a21 and two sets of feeding assemblies a22, two sets of feeding assemblies a22 are respectively disposed on the upper and lower sides of the extending direction of the conveying channel a103, two sets of feeding assemblies a22 are mutually standby, the adhesive tape a101 is alternately conveyed to the conveying channel a103, the structure of the feeding mechanism a20 is relatively simple, and the uninterrupted feeding of the adhesive tape a101 can be ensured. Of course, in other embodiments, the feeding mechanism a20 may also include three material-mounting shafts a21, and three sets of feeding assemblies a22 are provided, one for each, so as to further reduce the impact of a failure of the feeding assembly a22 on feeding.

In another embodiment of the present invention, as shown in fig. 2 and fig. 4, an upper introducing plate a14 and a lower introducing plate a15 are further disposed between the feeding channel a103 and the feeding mechanism a20, the upper introducing plate a14 and the lower introducing plate a15 are respectively used for guiding the adhesive tape a101 conveyed by the two feeding assemblies a22 to enter the feeding channel a103, the upper introducing plate a14 and the lower introducing plate a15 are disposed at an interval and form a guiding gap a16 for the adhesive tape a101 to penetrate through, an inlet of the guiding gap a16 is connected to the discharge port a225 of the two guide channels a223, and an outlet of the guiding gap a16 is connected to an inlet of the feeding channel a 103; thus, when the feeding mechanism a20 is provided with two sets of feeding modules a22, the upper and lower intake plates a14 and a15 are provided to guide the adhesive tapes a101 conveyed by the upper and lower feeding modules a22 and a22 to be conveyed to the conveying channel a103, respectively, so that the accuracy of the conveying direction of the adhesive tapes a101 can be further improved.

Further, in this embodiment, as shown in fig. 2 and 4, the end of the upper lead-in plate a14 close to the feed plate a222 is provided with an upper rounded corner, which is disposed opposite to the discharge port a225 of the material guiding chute a223 of the upper feeding assembly a22, so as to prevent the adhesive tape a101 from being scratched by the upper lead-in plate a14 when entering the material guiding gap a 16; the end part of the lower lead-in plate A15 close to the feed plate A222 is provided with a lower fillet, and the lower fillet is arranged opposite to the discharge port A225 of the material guide chute A223 of the lower feeding assembly A22 to prevent the adhesive tape A101 from being scratched by the lower lead-in plate A15 when entering the lead-in gap A16.

In another embodiment of the utility model, as shown in fig. 1 and 5, the automatic cartoning device of welt still includes and is used for processing half tangential half cutting mechanism a40 on the adhesive tape a101 that gets into defeated material passageway a103, be provided with two curb plate a11 along parallel adhesive tape a101 direction of delivery interval on the mounting bracket a10, press from both sides between two curb plate a11 and be equipped with the support strip board a13 that is used for bearing adhesive tape a101, support strip board a13 and two curb plate a11 enclose jointly and establish and form defeated material passageway a103, half cutting mechanism a40 installs in defeated material passageway a103, feeding mechanism a20 sets up respectively in the both ends that hold in the palm lath a13 with cutting mechanism a 50. So, set up holding in the palm slat A13 bearing adhesive tape A101, avoid adhesive tape A101 to receive the gravity flagging and appear warping, set up both sides board A11 and prevent that adhesive tape A101 from rocking about following the direction of delivery, guarantee that adhesive tape A101 is carried along the straight line all the time.

During the use, feeding mechanism A20 carries the material on the material book A100 to defeated material passageway A103, and when adhesive tape A101 moved through defeated material passageway A103, half-cut mechanism A40 carried out half tangent line processing to adhesive tape A101 in defeated material passageway A103, and adhesive tape A101 exports to cutting mechanism A50 from defeated material passageway A103 again after half tangent line processing was accomplished, cuts mechanism A50 and cuts adhesive tape A101 that has processed half tangent line into the strip A102 that pastes of suitable size again. Feeding mechanism A20 carries adhesive tape A101 for the in-process that cuts mechanism A50 cuts, half-cut mechanism A40 is convenient for process out half tangent line on adhesive tape A101, thus, half tangent line's processing is integrated in the process that cuts of welt A102, it puts welt A102 in thing box A200 and all is provided with half tangent line to pack into, the person of facilitating the use tears the bottom paper layer with the layer of sticking of welt A102 more, and, carry adhesive tape A101 to accomplish half tangent line processing when cutting shaping welt A102, need not to set up independent half tangent line manufacturing procedure, the process steps of welt A102 has been simplified, welt A102 production efficiency can be promoted.

Further, in this embodiment, as shown in fig. 1 and 5, the half-cutting mechanism a40 includes a half-cutter a41, a cutter fixing shaft a42 and a half-cutter driving motor a43, the half-cutter a41 is fixed on the cutter fixing shaft a42, a blade of the half-cutter a41 abuts against the adhesive tape a101, and a cutting depth of a blade of the half-cutter a41 is equal to a thickness of the adhesive layer on the adhesive tape a101, so as to ensure that the half-cutter a41 can only cut the adhesive layer and cannot cut the bottom paper layer when cutting the adhesive tape a101, the cutter fixing shaft a42 is rotatably mounted on one of the side plates a11, the half-cutter driving motor a43 is mounted on a supporting plate a13 away from a bottom of the adhesive tape a101 and is in driving connection with the cutter fixing shaft a42, and the half-cutter driving motor a43 drives the cutter a42 to rotate, so as to drive the half-cutter a41 to rotate and cut. The half-cutting mechanism A40 has simple structure, and when the adhesive tape A101 is conveyed through the conveying channel A103, the half cutter A41 cuts the adhesive layer and processes a half-cut line, thus the processing action is simple and the processing efficiency is high. Specifically, in the present embodiment, the half-cut driving motor a43 drives the cutter fixing shaft a42 to rotate reversely with respect to the conveying direction of the adhesive tape a101, thereby completing the half-cut processing.

Further, as shown in fig. 1, the axis of the cutter fixing shaft a42 is perpendicular to the conveying direction of the adhesive tape a101, i.e. the cutter fixing shaft a42 is vertically installed on one side plate a11, the half-cutter a41 abuts against the adhesive tape a101 at the end of the adhesive tape a101, and the half-cut line is processed at the end of the adhesive tape a101, so as to form the strip a102 meeting the use requirement.

In the utility model discloses a further embodiment, as shown in fig. 6, movable mounting has half-cut mounting panel A37 on installation cutter fixed axle A42's curb plate A11, half-cut cutter A41 installs on half-cut mounting panel A37, half-cut mounting panel A37 can reciprocate along perpendicular adhesive tape A101's direction on curb plate 11, thereby adjust the distance between half-cut cutter A41's the edge of a knife and adhesive tape A101, the thickness of pasting the layer is different on the adhesive tape A101 that needs the cutting is different and adhesive tape A101, adjustment half-cut mounting panel A37's mounted position, just can adjust the distance between half-cut cutter A41 edge of a knife and adhesive tape A101, thereby reach the purpose of adjustment cutting depth, make half-cut mechanism A40 of this embodiment can cut the adhesive tape A101 of different thickness or the layer of pasting of different thickness on the same adhesive tape A101, application scope is wider, it is convenient more nimble to use. For example, in this embodiment, the side plate a11 may be provided with a long connecting hole perpendicular to the adhesive tape a101, the half-cut mounting plate a37 is fastened to the side plate a11 by a fastening member such as a connecting bolt, and when the fastening member fastens the half-cut mounting plate a37 at a different position of the long connecting hole, the half-cut mounting plate a37 may move up and down in a direction perpendicular to the adhesive tape a 101. Preferably, in the present embodiment, the half cutter a41 is a circular disc cutter.

Further, the half-cutting mechanism a40 further includes a micrometer screw a36 for measuring the moving distance of the half-cutting knife a41, and since the thickness of the adhesive layer is generally relatively small and the thickness before cutting is known, the micrometer screw a36 is configured to measure the distance between the half-cutting knife a41 and the adhesive tape a101, so as to quickly and accurately adjust the cutting depth of the half-cutting knife a 41. Specifically, micrometer caliper A36 is installed on the curb plate 11 of installation cutter fixed axle A42, and micrometer caliper A36's measuring screw is perpendicular with the plane that adhesive tape A101 belonged to, be provided with on the half-cut mounting panel A37 with micrometer caliper A36 location complex location portion, micrometer caliper A36's gauge head just is to location portion and can move to and offset with location portion, during the use, can obtain half cutter A41 displacement distance through measuring the displacement distance of location portion relative gauge head, it is obvious to refer to, it is convenient to measure.

Preferably, in this embodiment, as shown in fig. 6, the half-cut mechanism a40 includes two micrometer screws a36, two positioning lugs a371 are convexly provided on two opposite side portions of the half-cut mounting plate a37, two engaging lugs a111 are provided on the side plate a11 of the mounting cutter fixing shaft a42, the two engaging lugs a111 are respectively located right below the two positioning lugs a371, the two micrometer screws a36 are respectively mounted on the two engaging lugs a111, and the two positioning lugs a371 respectively form positioning portions in positioning engagement with the two micrometer screws a 36. Two positioning lugs A371 are arranged on two sides of the half-cutting mounting plate A37 and are used as positioning parts, two spiral micrometer A36 are arranged to measure the moving distances of two sides of the half-cutting mounting plate A37 at the same time, the half-cutting mounting plate A37 can be effectively prevented from being inclined, deviation between the actual moving distance of the knife edge of the half-cutting knife A41 and the measured distance is avoided, and the position of the half-cutting knife A41 is guaranteed to move more accurately.

In another embodiment of the present invention, as shown in fig. 1 and 7, the cutting mechanism a50 includes an upper cutter a51, a lower cutter a52, an upper driving motor a53 and a lower driving motor a54, a cutting mounting plate a55 perpendicular to the conveying direction of the adhesive tape a101 is disposed on the mounting frame a10, a discharge clearance a551 for the adhesive tape a101 to pass through is formed on the cutting mounting plate a55, the upper cutter a51 and the lower cutter a52 are both slidably mounted on the cutting mounting plate a55, the upper cutter a51 and the lower cutter a52 are respectively disposed on the upper and lower sides of the discharge clearance a551, and the upper cutter a51 is disposed opposite to the lower cutter a52, the upper driving motor a53 and the lower driving motor a54 are both mounted on the cutting mounting plate a55 and are respectively connected to the upper cutter a51 and the lower cutter a52 in a driving manner to drive the upper cutter a51 and the lower cutter a52 to move in opposite directions, so as to pass through the discharge clearance a 551. Specifically, when the length of the adhesive tape a101 output from the material conveying channel a103 and passing through the discharging avoiding vacancy a551 meets the size requirement of the adhesive tape a102, the upper driving motor a53 and the lower driving motor a54 are started and drive the upper cutter a51 and the lower cutter a52 to move oppositely, so that the adhesive tape a101 is cut off to form the adhesive tape a102, after one cutting action is finished, the upper driving motor a53 and the lower driving motor a54 drive the upper cutter a51 and the lower cutter a52 to move backwards, when the length of the adhesive tape a101 passing through the discharging avoiding vacancy a551 meets the size requirement of the adhesive tape a102 again, the next cutting operation is executed, and after one cutting action, the adhesive tape a101 is completely separated from the upper cutter a51 and the lower cutter a52 and cannot be adhered to the upper cutter a51 or the lower cutter a52, so that the continuous conveying of the adhesive tape a101 is not hindered, and the cutting of the adhesive tape a101 is smoother.

In another embodiment of the utility model, as shown in fig. 1 and fig. 2, automatic cartoning equipment of joint strip still includes and is used for carrying the adhesive tape A101 in defeated material passageway A103 to ejection of compact clearance A551 biography material subassembly A30, it includes a plurality of biography material roller set A31 that are used for centre gripping adhesive tape A101 to pass material subassembly A30, each passes material roller set A31 and installs in defeated material passageway A103 along adhesive tape A101 direction of delivery interval, each passes material roller set A31 along adhesive tape A101 direction of delivery according to the preface centre gripping adhesive tape A101 to pulling adhesive tape A101 removes in defeated material passageway A103.

Specifically, in this embodiment, as shown in fig. 1 and fig. 2, a plurality of installation notches a131 are reserved at intervals in the conveying direction of the rubber strip a101 on the supporting strip plate a13, each of the conveying roller sets a31 is installed in each installation notch a131 in a one-to-one correspondence, and correspondingly grips the rubber strip a101 in each installation notch a131, each of the conveying roller sets a31 includes an upper conveying roller a311 and a lower conveying roller a312, each of the upper conveying rollers a311 is installed above the supporting strip plate a13 in parallel, and each of the lower conveying rollers a312 is installed below the supporting strip plate a13 in parallel.

Further, in this embodiment, as shown in fig. 1, fig. 2 and fig. 6, the material conveying assembly a30 further includes a material conveying motor a35, the material conveying motor A35 is in driving connection with a lower material conveying roller A312 of a material conveying roller group A31 arranged at the middle position, the material conveying roller group A31 transmits the driving force of the feeding motor A226 to the adjacent material conveying roller group A31 step by step in a gear transmission and belt transmission mode, therefore, power transmission is carried out among all the material conveying roller sets A31 in a gear transmission and belt transmission mode, all the material conveying roller sets A31 can be driven to feed materials in a rotating mode only by arranging one material conveying motor A35, the power consumption can be effectively saved, moreover, each material conveying roller group A31 is interlocked, so that each material conveying roller group A31 can be guaranteed to convey the adhesive tape A101 at the same rotating speed, the adhesive tape A101 is prevented from being pulled by the two material conveying roller groups A31 due to different rotating speeds, and the related structures of the material conveying roller group A31 and belt transmission are guaranteed to be completely the same. Specifically, in this embodiment, torque is transmitted between the upper feeding roller a311 and the lower feeding roller a312 of each feeding roller group a31 through the transmission gear a32, torque is transmitted between two adjacent feeding roller groups a31 through a belt transmission mode, and each belt transmission structure includes a transmission belt a34, a belt pulley a33 and the like, and the specific transmission mode is the same as that of a common belt transmission mode, which is not described herein again.

In other embodiments, as shown in fig. 2 and fig. 6, the half-cut driving motor a43 and the feeding motor a35 may share a motor, the half-cut driving motor a43 (feeding motor a35) is in driving connection with the lower feeding roller a312 of the feeding roller group a31 at the middle position by means of belt transmission, the lower feeding roller a312 transmits torque to the cutter fixing shaft a42 by means of gear transmission, and the lower feeding roller a312 transmits torque to the two adjacent feeding roller groups a31 by means of belt transmission, so that the half-cut driving motor a43 (feeding motor a35) drives each feeding roller group a31 to rotate and convey the adhesive tape a101, and simultaneously drives the cutter fixing shaft a42 to rotate and machine the above half-cut line on the adhesive tape a 101. Like this, only need set up a motor and can accomplish the pay-off of adhesive tape A101 and the processing of half tangent line, device overall structure is brief, and it is more convenient to operate. Of course, in other more embodiments, a plurality of material conveying motors a35 may be respectively provided to drive different material conveying roller sets a31 to rotationally convey the rubber strip a101, and the design may be selected according to actual situations, which is not limited herein.

In another embodiment of the present invention, as shown in fig. 1 and 8, the automatic packing device for sealing strips further includes a static electricity removing mechanism a70 disposed between the cutting mechanism a50 and the discharging mechanism a60, the static electricity removing mechanism a70 includes a conveyor belt a71 for conveying the sealing strip a102 cut by the cutting mechanism a50 to the discharging mechanism a60 and at least one static electricity removing ion fan a72 for removing static electricity from the sealing strip a102, at least one static electricity removing ion fan a72 is suspended above the conveyor belt a71, the feeding end of the conveyor belt a71 extends to the position under the cutting mounting plate a55 to receive the sealing strip a102 cut by the cutting mechanism a50, and the discharging end of the discharging mechanism a60 close to the conveyor belt a71 is disposed. Thus, the conveyor belt A71 is arranged to bear the seal strip A102 cut by the cutting mechanism A50, and the conveyor belt A71 can play a role in temporarily storing the seal strip A102, so that ordered blanking of the blanking mechanism A60 is facilitated; in addition, the conveyor belt A71 is provided with the static-removing ion fan A72, the static-removing ion fan A72 can remove static electricity of the sticker A102 and remove dust, dust and the like which are generated in the half-cutting and cutting process and adsorbed on the sticker A102, so that the dust and other impurities are prevented from being brought into the storage box A200. Specifically, the static-removing ion fan a72 may be a suspended three-port ion fan manufactured by shanghai safety corporation and having a model number of AP-DC2452-80, and when in use, the whole static-removing ion fan is suspended on the conveyor belt a 71.

Further, in the present embodiment, as shown in fig. 8, the static electricity removing mechanism a70 further includes an air guiding cover a73 enclosed on the upper portion of the conveyor belt a71, and the static electricity removing ion fan a72 is installed above the air guiding cover a73, so that the air guiding cover a73 is arranged to conduct the air generated by the static electricity removing ion fan a72, so that the static electricity removing ion fan a72 can better adsorb the dust on the stick a 102; in addition, the feeding end and the discharging end of the transmission belt respectively extend out of the air guide cover A73 to ensure that the feeding end can normally receive the welt A102 and ensure that the discharging mechanism A60 can normally discharge from the discharging end.

In another embodiment of the present invention, as shown in fig. 1 and 9, the feeding mechanism a60 includes an absorption claw a61, a rotating arm a62 and a rotating electric machine a63, the absorption claw a61 is installed on the rotating arm a62, a suspension arm a64 is suspended on the installation frame a10, the rotating electric machine a63 is fixed at the bottom of the suspension arm a64, an output shaft of the rotating electric machine a63 is connected with the rotating arm a62 to drive the rotating arm a62 to rotate, and drive the absorption claw a61 to reciprocate between the feeding end of the conveyor belt a71 and the storage box a200, so as to transfer the strip a102 from the conveyor belt a71 to the storage box a 200. Specifically, during feeding, the rotary motor a63 drives the rotary arm a62 to rotate and move the adsorption claw a61 to the upper side of the feeding end of the conveyor belt a71, after the adsorption claw a61 adsorbs the sticker a102, the rotary motor a63 drives the rotary arm a62 to rotate, the adsorption claw a61 is moved to the upper side of the storage box a200, and the adsorption claw a61 puts the sticker a102 into the storage box a 200.

Further, in this embodiment, as shown in fig. 9, the blanking mechanism a60 further includes an adsorption cylinder a65 for driving the adsorption claw a61 to be vertically close to or far from the conveyor belt a71, the adsorption claw a61 is mounted on an output shaft of the adsorption cylinder a65 through an adsorption mounting plate a66, when the strip a102 is adsorbed, the adsorption cylinder a65 may drive an adsorption head of the adsorption claw a61 to move to the adsorption strip a102 toward the conveyor belt a71, so that the adsorption cylinder a65 is provided to control a spacing distance between the adsorption claw a61 and the conveyor belt a71, and the adsorption of the strip a102 is more flexible.

Further, as shown in fig. 9, the suction mounting plate a66 is further provided with a suction sensor a67 for sensing whether the suction claw a61 has sucked the strip a102 when sucking the strip a102, and for sensing whether the strip a102 is separated from the suction claw a61 when placing the strip a102, so as to improve the accuracy of sucking and placing the strip a102 and ensure that the strip a102 is correspondingly placed in each storage box a 200. Specifically, the adsorption sensor a67 may be a laser sensor, an infrared sensor, or an optical fiber sensor, etc.

Preferably, in this embodiment, as shown in fig. 1 and 9, the output shaft of the rotating motor a63 is connected to the middle of the rotating arm a62, the two opposite ends of the rotating arm a62 are both provided with the suction claws a61, and when the suction claw a61 at one end sucks the stick a102, the suction claw a61 at the other end puts the stick a102 sucked by the suction claw a61 into the storage box a200, so that the suction claws a61 at the two ends alternately perform the suction operation of the stick a102, and the suction claws a61 at the two ends alternately perform the placement operation of the stick a102, and the suction claw a61 continuously and uninterruptedly performs the operation, thereby further improving the efficiency of taking and placing the stick a102, and improving the overall packing efficiency of the stick a 102. Further, the storage box A200 and the conveyor belt A71 are arranged on the same straight line, the rotating motor A63 drives the rotating arm A62 to horizontally rotate for 180 degrees, reciprocating movement of the adsorption claw A61 between the conveyor belt A71 and the storage box A200 can be achieved, the rotating motor A63 drives the rotating arm A62 to horizontally rotate around the same direction and keep a fixed rotating speed to output rotating torque, the rotating control process is simple, frequent starting and stopping are not needed, and energy consumption of the rotating motor A63 is smaller.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a paste automatic cartoning equipment of strip, its characterized in that, include the mounting bracket, install in feeding mechanism on the mounting bracket with cut the mechanism to and unloading mechanism, feeding mechanism set up in cut the lateral part of mechanism, and be used for rolling up the material adhesive tape carry extremely cut the mechanism, cut the mechanism be used for with the adhesive tape that feeding mechanism carried cuts into the strip, unloading mechanism locates cut the side of mechanism, and be used for with the strip that cuts the mechanism is packed into and is put the thing box.

2. The automatic strip attaching and boxing apparatus as claimed in claim 1, wherein the feeding mechanism comprises a plurality of material mounting shafts and a plurality of sets of feeding assemblies in one-to-one correspondence with the material mounting shafts, each material mounting shaft is used for mounting a material roll, a feeding channel for conveying adhesive tapes is arranged on the mounting frame, and a discharging end of each feeding assembly is communicated with the feeding channel and is used for sequentially conveying the adhesive tapes on the material rolls mounted on the material mounting shafts to the feeding channel.

3. The automatic strip attaching boxing apparatus as claimed in claim 2, wherein the feeding assembly comprises a feeding roller set for providing feeding power and a feeding plate for defining a feeding direction, the feeding plate is provided with a guide chute for adhesive tapes to be adapted and arranged in parallel to the conveying direction of the adhesive tapes, the guide chute is provided with a feeding port and a discharging port which are oppositely arranged, the feeding roller set is rotatably mounted on the mounting frame and arranged close to the feeding port, and the discharging port is in butt joint with the conveying channel and forms a discharging end of the feeding assembly.

4. An automatic strip boxing apparatus as claimed in claim 3, wherein the feed opening is a gradually increasing aperture wide opening, and the large aperture end of the gradually increasing aperture wide opening is arranged towards the feed roller group.

5. An automatic cartoning apparatus for a strip of material according to claim 3, wherein: the feeding mechanism comprises two material mounting shafts and two groups of feeding assemblies, and the two groups of feeding assemblies are respectively arranged on the upper side and the lower side of the feeding channel;

the feeding mechanism is characterized in that an upper introducing plate and a lower introducing plate are further arranged between the feeding channel and the feeding mechanism, the upper introducing plate and the lower introducing plate are respectively used for guiding two adhesive tapes conveyed by the feeding assemblies to enter the feeding channel, the upper introducing plate and the lower introducing plate are arranged at intervals and form a material guiding gap for the adhesive tapes to penetrate through, the inlet of the material guiding gap is connected with the two discharge holes of the guide chute, and the outlet of the material guiding gap is connected with the inlet of the feeding channel.

6. The automatic strip attaching and boxing apparatus according to any one of claims 2 to 5, further comprising a half-cutting mechanism for processing a half-cut line of the adhesive tape entering the material conveying channel, wherein two side plates are arranged on the mounting frame at intervals along a direction parallel to a conveying direction of the adhesive tape, a strip supporting plate for supporting the adhesive tape is clamped between the two side plates, the strip supporting plate and the two side plates jointly enclose the material conveying channel, the half-cutting mechanism is arranged in the material conveying channel, and the feeding mechanism and the cutting mechanism are respectively arranged at two ends of the strip supporting plate.

7. The automatic strip attaching and boxing apparatus as claimed in claim 6, wherein the half-cutting mechanism comprises a half-cutting knife, a knife fixing shaft and a half-cutting driving motor, the half-cutting knife is fixed on the knife fixing shaft, the edge of the half-cutting knife abuts against the adhesive tape, the cutting depth of the edge of the half-cutting knife is equal to the thickness of the adhesive layer on the adhesive tape, the knife fixing shaft is rotatably mounted on one of the side plates, the half-cutting driving motor is mounted on the strip supporting plate away from the bottom of the adhesive tape and is in driving connection with the knife fixing shaft, and the half-cutting driving motor drives the knife fixing shaft to rotate, so that the half-cutting knife is driven to rotate and cut on the adhesive tape to form a half-cut line.

8. The automatic box packing equipment for the pasters according to any one of claims 1 to 5, wherein the cutting mechanism comprises an upper cutter, a lower cutter, an upper driving motor and a lower driving motor, a cutting mounting plate perpendicular to the conveying direction of the adhesive tapes is arranged on the mounting frame, a discharging space for the adhesive tapes to penetrate out is formed on the cutting mounting plate, the upper cutter and the lower cutter are slidably mounted on the cutting mounting plate and are respectively positioned on the upper side and the lower side of the discharging space, and the upper driving motor and the lower driving motor are mounted on the cutting mounting plate and are respectively in driving connection with the upper cutter and the lower cutter so as to drive the upper cutter and the lower cutter to move oppositely, so that the adhesive tapes penetrating out from the discharging space are cut.

9. The automatic strip attaching and boxing equipment according to any one of claims 1 to 5, further comprising a static electricity removing mechanism arranged between the cutting mechanism and the blanking mechanism, wherein the static electricity removing mechanism comprises a conveyor belt used for conveying the strips cut by the cutting mechanism to the blanking mechanism and at least one static electricity removing ion fan used for removing static electricity of the strips, and the at least one static electricity removing ion fan is suspended above the conveyor belt.

10. The automatic strip paster boxing apparatus according to claim 9, wherein the discharging mechanism comprises an adsorption claw, a rotating arm and a rotating motor, the adsorption claw is mounted on the rotating arm, a suspension arm is suspended on the mounting frame, the rotating motor is fixed at the bottom of the suspension arm, and an output shaft of the rotating motor is connected with the rotating arm to drive the rotating arm to rotate and drive the adsorption claw to move back and forth between the discharging end of the conveyor belt and the storage box, so that the strip paster is transferred from the conveyor belt to the storage box.

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