CN217724086U - Environment-friendly multifunctional full-automatic moxa roll rolling all-in-one machine - Google Patents

Abstract

The utility model discloses a multi-functional full-automatic moxa stick all-in-one of rolling up of environment-friendly establishes material loading portion, roll up strip portion and the transport portion by switch board control in the frame, and roll up strip portion is including setting up paper placing mechanism, relocation mechanism, die cutting mechanism, rubberizing mechanism, feeding mechanism, unloading mechanism, roll up strip mechanism and batching mechanism in the frame. The utility model has multiple functions, wide application range, good consistency of the rolled moxa roll and good quality; the length of the manufactured moxa sticks is not limited, and the automatic feeding system greatly reduces the labor intensity of workers; a totally enclosed mechanism is adopted, targeted dust removal is carried out on the area with dust, the dust removal effect is good, and the working ring of workers can be greatly improved; the whole machine is integrated, and the machine is more attractive.

Description

Environment-friendly multifunctional full-automatic moxa roll rolling all-in-one machine

Technical Field

The utility model relates to a moxa stick preparation equipment, concretely relates to multi-functional full-automatic moxa stick all-in-one of rolling up of environment-friendly.

Background

The moxibustion is a treatment method which is characterized in that moxa heat generated by burning moxa sticks made of folium artemisiae argyi stimulates acupuncture points or specific parts of a human body and regulates the physiological and biochemical functions of human body disorder by exciting the movement of meridian qi, thereby achieving the purpose of preventing and treating diseases. Moxibustion belongs to external treatment of traditional Chinese medicines, can warm channel and dispel cold, promote qi and blood circulation and expel cold and dampness, and is suitable for symptoms such as wind-cold-dampness arthralgia, muscle soreness and numbness, arthralgia and limb pain, cervical spondylosis and the like. The moxibustion action mechanism is similar to that of acupuncture and moxibustion, has complementary treatment effect with acupuncture and moxibustion, and has the advantages of simple operation, low cost, obvious effect and the like.

The moxa roll is a cylindrical long roll made by wrapping moxa with cotton paper, and in terms of functions, the difficulty and the method for rolling the moxa roll are different due to different grades of the moxa. Although some machines replace manual operation in the market, the machines are various, and machines with different functions need to be manufactured according to different moxa wool grades, moxa sticks with different diameters also need to be manufactured by different machines, and the end sockets of the moxa sticks also need to be manufactured by different machines, so that a plurality of devices are needed for manufacturing different moxa sticks, and a moxa stick rolling device with multiple purposes and universality is not found at present, so that the cost for manufacturing the moxa sticks is increased, and the market competition is not facilitated.

In addition, the moxa roll is made by rolling moxa wool, the moxa wool is made by processing moxa, a large amount of dust can be generated in the rolling process of the moxa roll, the dust causes certain pollution to the environment, although manual operation is replaced by partial machines, the dust removal effect is not ideal, the problem of environmental pollution cannot be effectively solved, and the physical and mental health of operators is seriously influenced.

Disclosure of Invention

The utility model aims to solve the technical problem that a multi-functional full-automatic moxa stick all-in-one of rolling up of environment-friendly is provided, this all-in-one is a tractor serves several purposes, and the moxa stick diameter scope of rolling up is big, and the moxa stick uniformity of rolling up out is good to dust removal effect is good.

In order to solve the technical problem, the utility model discloses the technical scheme who takes is: the utility model provides a multi-functional full-automatic chinese mugwort strip all-in-one of rolling up of environment-friendly, includes the frame establish the material loading portion, roll up strip portion and the conveying part by switch board control in the frame, roll up strip portion and include: the paper feeding mechanism is arranged at one end of the rack and used for feeding paper into roll paper, the floating mechanism can provide certain tension for the paper fed on the roll paper, the die cutting mechanism can die-cut the paper passing through the floating mechanism into a required shape, the gluing mechanism is used for spraying glue on the paper subjected to die cutting with the paper subjected to the die cutting and adhering moxa sticks, the feeding mechanism is used for providing raw materials for the blanking mechanism, the raw materials provided by the feeding mechanism are conveyed to the blanking mechanism of the moxa stick rolling mechanism, and the paper passing through the gluing mechanism is fed by the blanking mechanism to form the moxa stick rolling mechanism and the cloth rolling mechanism.

The paper placing mechanism is characterized in that bearings are respectively arranged on two sides of the frame, an air expansion shaft is arranged between the two bearings, the roll paper is arranged on the air expansion shaft, and the air expansion shaft is driven by a motor through an open type coupler.

The floating mechanism is characterized in that two guide shafts are respectively arranged on two sides of the rack, a V-shaped bearing is arranged between the two guide shafts on each side, a floating rod is connected between the two V-shaped bearings, a paper passing rod A and a paper passing rod B are arranged at the upper ends of the two guide shafts on the two sides, and a paper moving route of roll paper is wound around the paper passing rod A, the floating rod and the paper passing rod B.

The die-cutting mechanism is arranged above the die-cutting bottom plate, the die-cutting bottom plate is arranged on the fixed bottom plate and comprises a die-cutting connecting plate and a stripper plate which are arranged up and down, the lower surface of the die-cutting connecting plate is provided with a mounting plate, a plurality of die-cutting cutters are mounted on the mounting plate, and each die-cutting cutter comprises a transverse die-cutting cutter and side die-cutting cutters positioned on two sides of the transverse die-cutting cutter; the die-cutting connecting plate is characterized in that guide sleeves are fixedly arranged at four corners of the die-cutting connecting plate, guide posts are arranged in the guide sleeves in a matching manner, and the bottom ends of the guide posts penetrate through the stripper plate and are fixedly connected with the die-cutting bottom plate, so that the die-cutting connecting plate and the stripper plate can move up and down along the guide posts; a top plate is fixedly arranged at the top end of the guide post, an air cylinder is fixedly arranged on the lower surface of the top plate, and a piston rod of the air cylinder is fixedly connected with the die-cutting connecting plate and used for driving the die-cutting connecting plate to move up and down; a spring is sleeved on the guide post between the die cutting connecting plate and the material returning plate, and the upper end and the lower end of the spring are fixedly connected with the die cutting connecting plate and the material returning plate respectively; the transverse die-cutting rule is positioned on the feeding side of the die-cutting connecting plate, the feeding direction of the front side of the transverse die-cutting rule is provided with a stopping mechanism, the stopping mechanism comprises a stopping plate and a stopping fixing piece, the stopping plate is hinged with the bottom end of the stopping fixing piece through a hinge, and the top end of the stopping fixing piece is fixedly connected with the top plate; the contact surface of the material returning plate and the paper is provided with prepressing sponge.

The gluing mechanism is characterized in that supports are arranged on two sides of a rack, a stepping bottom plate is arranged at the lower parts of the two supports, an upper connecting plate is arranged at the upper ends of the two supports, two ends of a gluing module are respectively connected with the upper ends of the two supports, and a motor is arranged at one end of the gluing module; one end of the climbing pipe is fixed on the upper connecting plate, the other end of the climbing pipe is fixed on a sliding block of the gluing module, and a gluing gun is arranged on the sliding block of the gluing module; the cylinder is fixed at the lower extreme of upper junction plate, and the moving end of cylinder is installed and is stepped on the sole.

The feeding mechanism comprises a bottom plate, a left side plate shell and a right side plate shell are mounted at the top end of the bottom plate, a feeding nest A side is mounted at one side inside the left side plate shell and the right side plate shell, a feeding nest B side is mounted at the other side inside the left side plate shell and the right side plate shell, a blanking main shaft is movably connected to the bottom end between the front end and the rear end inside the left side plate shell and the right side plate shell through a bearing, a charging basket is arranged above the left side plate shell and the right side plate shell, a basket cover is fixedly connected to the top end of the charging basket, a blanking port is arranged in the middle position between one side of the feeding nest A side and one side of the feeding nest B side, a blanking roller is sleeved outside the blanking main shaft, a fixing piece is arranged right below the blanking port for forcibly feeding shifting a blanking roller, and a loose moxa conveniently-blanking mechanism is arranged inside the charging basket; loose moxa feed mechanism of being convenient for includes agitator motor, agitator motor fixed connection is in bung top one side, and the intermediate position department of bung bottom installs the bearing frame, and the vertical grafting in inside of bearing frame has the (mixing) shaft, the bottom fixedly connected with puddler of (mixing) shaft, one side welding of puddler has forces the kickoff pole, and the bottom welding of puddler one side has forces the kickoff, and the bottom of the inside one side of storage bucket is installed and is hindered the material stick.

The blanking mechanism comprises a feeding hole, a storage bin, a first air cylinder, a second air cylinder, a third air cylinder, an upper arc plate, an arc turning plate and a paper bracket which are arranged on the rack; the piston of the first cylinder is fixedly connected with the cylinder body of the third cylinder, the piston of the second cylinder is fixedly connected with the cylinder body of the first cylinder, the cylinder body of the first cylinder is fixedly connected with the storage bin, and the cylinder body of the second cylinder is fixedly connected with the rack; the storage bin comprises a bin wall, an upper arc plate at the top and an arc turning plate at the bottom, the lower end of a piston rod of the cylinder III is fixedly connected with the upper arc plate, the arc turning plate is hinged to the bin wall, a reset spring is arranged between the arc turning plate and the bin wall, paper brackets are fixed on frames on two sides of the arc turning plate, each paper bracket comprises a bracket and a paper passing gap horizontally arranged on the bracket, and a feed inlet is arranged on the frame corresponding to the storage bin.

The rolling mechanism and the cloth rolling mechanism are characterized in that guide rails are arranged on two sides of the rack, a rolling motion assembly is arranged on each guide rail and comprises a rolling body and a first linear module driving the rolling body to move back and forth on the guide rails, a support bar and a rolling bar capable of freely rotating are respectively arranged in each rolling body, and a rolling paper clamping mechanism is arranged above each rolling bar; a rolling plate is arranged at the front end of the rolling strip motion component; a film base moving mechanism for driving a film base to move back and forth is arranged at the rear end of the rolling strip moving assembly, one end of the film base is connected with the film base moving mechanism, the other end of the film base sequentially passes through the lower part of the roll paper clamping mechanism, the surface of the supporting rod and the surface of the rolling rod, a rolling cavity is formed on the inner side of the rolling strip body, the film base passes through the surface of the rolling plate, the tail end of the film base is fixed below the rolling plate, and the roll paper clamping mechanism clamps the roll paper after the rolling strip moving assembly finishes rolling and returns and is placed in the rolling cavity; the moxa roll strip equipment also comprises a control system which can control the work of the roll strip motion assembly and the sheet base motion mechanism, wherein the control system can change the stretching length of the sheet base in the back-and-forth movement process of the sheet base motion mechanism, and change the size of the roll forming holes, thereby adjusting the roll forming diameter of the moxa roll.

The feeding part is a spiral feeding mechanism, a bottom plate is fixedly connected to the bottom end inside the rack, a charging barrel is mounted at the top end of the bottom plate, a feeding motor is mounted at the bottom end inside the charging barrel, and a conveying pipe body is mounted at the rear end of the rack; the inside vertical rotating main shaft that is provided with of conveying body, the outside fixedly connected with helical blade of rotating main shaft, the spiral material loading mouth is installed to the bottom of conveying body inside, and driving motor is installed to one side of frame bottom, and the discharge gate is installed on the top of conveying body.

Establish dust removal portion in the frame, dust removal portion includes that the upper portion to the frame adopts enclosed construction, establishes a roll strip dust collecting cover in the lower part of roll strip mechanism, establishes a roll cloth dust collecting cover in roll cloth mechanism department, establishes unloading dust collecting cover in feed mechanism department, establishes the feed dust collecting cover in feed mechanism department, and roll strip dust collecting cover, roll cloth dust collecting cover, unloading dust collecting cover and feed dust collecting cover all are connected with the dust exhausting fan in the frame through corresponding pipeline that gathers dust.

The utility model adopts the characteristics of the multi-functional full-automatic moxa stick all-in-one of rolling up of above-mentioned technical scheme design, a tractor serves several purposes, and is multi-functional, the application range is wide, and the moxa stick uniformity of rolling up out is good, and the quality is good. Has low requirements on different qualities of moxa, and can be used for manufacturing seal heads and moxa sticks without seal heads. The diameter range of the rollable moxa roll is large, the weight calculation function is included, and the weight of the moxa roll is uniform. The length of the manufactured moxa roll is not limited, and the length of the moxa roll can be customized appropriately. Automatic feeding system, great reduction workman's intensity of labour. The machine is divided into a plurality of independent areas by adopting a totally enclosed mechanism, targeted dust removal is carried out on the areas with dust, dust removing air is filtered twice and then discharged, the dust removing effect is good, and the working environment of workers can be greatly improved. The integration of the whole machine makes the machine more beautiful.

Drawings

Fig. 1 is a schematic structural view of a rolled strip portion according to the present invention;

FIG. 2 is a schematic structural view of the paper feeding mechanism of the present invention;

fig. 3 is a schematic structural view of the floating mechanism of the present invention;

FIG. 4-1 shows a schematic structural view of the die-cutting mechanism of the present invention;

FIG. 4-2 shows a schematic view of the structure of the lower paper hole and the knife gap;

4-3 illustrate the web die cut shape of the present invention;

FIG. 5 is a schematic structural view of the glue applying mechanism of the present invention;

FIG. 6-1 is a schematic front sectional view of the feeding mechanism of the present invention;

fig. 6-2 shows a schematic rear perspective view of the feeding mechanism of the present invention;

fig. 6-3 is a schematic view of a front view of a partial cross-sectional structure of the feeding mechanism of the present invention;

fig. 6-4 is a schematic view showing a three-dimensional enlarged structure of the feeding roller of the feeding mechanism of the present invention;

fig. 6-5 are schematic diagrams showing a three-dimensional enlarged structure of the tray of the feeding mechanism of the present invention;

FIG. 7-1 shows a schematic view of the overall structure of the present invention;

FIG. 7-2 is a schematic structural view of a paper tray according to the present invention;

fig. 7-3 show a schematic structural view of the cylinder of the present invention;

FIGS. 7-4 are schematic views showing the structure of the present invention in the initial state;

7-5 show the structure of the cylinder after the action of the present invention;

7-6 show the structure schematic diagram of the second cylinder after the second cylinder acts in the present invention;

7-7 show the structure of the cylinder after three actions;

FIG. 8-1 is a schematic structural view of an embodiment of the cloth winding mechanism and the strip winding mechanism of the present invention;

FIG. 8-2 is a schematic perspective view of the strip winding mechanism and the cloth winding mechanism of the present invention;

fig. 8-3 is a schematic structural view of another embodiment of the cloth winding mechanism and the strip winding mechanism of the present invention;

FIG. 8-4 is a schematic view showing the moxa roll being rolled in the strip rolling mechanism and the cloth rolling mechanism of the present invention;

FIG. 9-1 is a schematic bottom perspective sectional view of the loading portion of the present invention;

fig. 9-2 is a schematic bottom perspective view of the loading portion of the present invention;

fig. 9-3 are schematic views showing the three-dimensional cross-sectional structure of the conveying pipe body of the feeding part of the present invention;

FIGS. 9-4 are schematic diagrams showing the top cross-sectional structure of the charging barrel of the charging part of the present invention;

fig. 9-5 are schematic side views of the forced feeding plate of the feeding part of the present invention;

FIGS. 9-6 are schematic diagrams showing the top perspective cross-sectional structure of the charging barrel of the charging part of the present invention;

fig. 10 is a schematic view showing the structure of the dust removing part of the present invention.

Detailed Description

The environment-friendly multifunctional full-automatic moxa roll integrated machine of the present invention is specifically described with reference to the accompanying drawings.

The utility model discloses multi-functional full-automatic chinese mugwort strip all-in-one of rolling up of environment-friendly, see fig. 1, including frame 10, establish material loading portion, the roll strip portion and the transport portion by switch board control in frame 10. Wherein, roll up the strip portion and include: the paper feeding mechanism comprises a paper feeding mechanism 1, a floating mechanism 2, a die cutting mechanism 3, a glue applying mechanism 4, a strip rolling mechanism 5, a cloth rolling mechanism 6, a feeding mechanism 7 and a feeding mechanism 8, wherein the paper feeding mechanism 1 is arranged at one end of a rack 10 and used for feeding paper into a roll paper 9, the floating mechanism 2 can provide certain tension for the paper fed onto the roll paper 9, the die cutting mechanism 3 can die-cut the paper passing through the floating mechanism 2 into a required shape, the glue applying mechanism 4 is used for spraying glue on the die-cut paper to enable the glue to be wet in the shade and adhere to moxa sticks, the strip rolling mechanism 5 is used for rolling the paper passing through the glue applying mechanism into moxa sticks after the paper is fed by the feeding mechanism, the cloth rolling mechanism 6 can adjust the diameter of the rolled moxa sticks, the feeding mechanism 7 is used for conveying raw materials provided by the feeding mechanism, and the feeding mechanism 8 is used for providing the raw materials for the feeding mechanism.

The utility model discloses put paper mechanism 1, see fig. 2, be in frame 10 both sides establish heterotypic bearing nest 1.1 and heterotypic bearing nest 1.2 respectively, bearing 1.3 and bearing 1.4 are installed respectively to the both ends of inflatable shaft 1.5, and bearing 1.3 sets up on heterotypic bearing nest 1.1, and bearing 1.4 sets up on heterotypic bearing nest 1.2. The motor support 1.6 is fixed on the frame 10, the motor 1.8 is fixed on the motor support 1.6, one end of the open type coupler 1.7 is inserted on the motor 1.8, the other end is clamped on one end of the inflatable shaft 1.5, the motor 1.8 transmits power to the inflatable shaft 1.5 through the open type coupler 1.7, and the roll paper 9 is arranged on the inflatable shaft 1.5. When the roll paper 9 is installed, the open type coupler 1.7 is removed, the air expansion shaft 1.5 and bearings at two ends of the air expansion shaft can be taken away together, the air expansion shaft 1.5 is connected into a paper roll of the roll paper 9 in series, the air expansion shaft 1.5 and the roll paper 9 are placed together, the bearings at two ends of the air expansion shaft 1.5 are located on the corresponding special-shaped bearing sockets, and the open type coupler 1.7 is clamped at one end of the air expansion shaft 1.5. The roll paper 9 is fixed by the air expansion shaft 1.5, the air expansion shaft 1.5 is driven by the motor 1.8 to rotate, and whether paper is discharged or not can be controlled by an electric appliance in a power distribution cabinet.

The utility model discloses a floating mechanism 2, see fig. 3, establish fixed right angle 2.4 and fixed right angle 2.5 respectively on the both sides upper portion of frame 10, establish paper thick stick A2.7 and cross paper thick stick B2.6 between two fixed right angles, still establish fixed block 2.2 respectively on two fixed right angles, corresponding fixed block 2.1 and lower fixed block 2.3 of establishing in frame 10 lower part, establish two guiding axles 2.8 between last fixed block 2.2 and lower fixed block 2.1, establish two guiding axles 2.9 with lower fixed block 2.3 at the last fixed block (in the figure) of frame opposite side equally, establish V type bearing 2.11 between two guiding axles 2.8, establish V type bearing 2.10 between two guiding axles 2.9, even establish unsteady 2.12 between V type bearing 2.10 and V type bearing 2.11. Sheet 2.13 from web 9 passes under bar a 2.7, then down again around dancer bar 2.12, then up again over bar B2.6, and then horizontally down to the next mechanism. The floating bar 2.12 can provide certain tension for the paper 2.13 under the action of weight, when other mechanisms pull the paper along the arrow direction, the floating bar 2.12 moves upwards due to the pulling force, when the other mechanisms rise to a certain height, the paper placing mechanism 1 on the floating bar starts to place the paper, the paper 2.13 is pulled downwards under the action of the weight of the floating bar 2.12, and the floating bar 2.12 can float up and down according to the use length of the paper and the length of the paper to be placed, so that the paper has basically constant tension.

The utility model discloses a die-cutting mechanism 3, refer to fig. 4-1, fig. 4-2 and fig. 4-3, set up in cross cutting bottom plate 4.2's top, and cross cutting bottom plate 4.2 sets up on PMKD 4.1, and is concrete, and die-cutting mechanism is including the cross cutting that arranges from top to bottom even board 4.3 and material returned board 4.4, and the lower surface that the cross cutting even board is equipped with mounting panel 4.5, installs a plurality of die-cutting cutters on the mounting panel, and the die-cutting cutter includes horizontal die-cutting cutter 4.6 and the side die-cutting cutter 4.7 that is located its both sides. Four corners of the die cutting connecting plate are fixedly provided with guide sleeves 4.8, guide posts 4.9 are arranged in the guide sleeves in a matching mode, and the bottom ends of the guide posts penetrate through the stripper plate to be fixedly connected with a die cutting bottom plate 4.2, so that the die cutting connecting plate and the stripper plate can move up and down along the guide posts. The top end of the guide post 4.9 is fixedly provided with a top plate 4.10, the lower surface of the top plate is fixedly provided with air cylinders 4-19, and piston rods of the air cylinders are fixedly connected with the die cutting connecting plate 4.3 and used for driving the die cutting connecting plate to move up and down. The guide post between the die cutting connecting plate and the material returning plate is sleeved with a spring, and the upper end and the lower end of the spring are fixedly connected with the die cutting connecting plate and the material returning plate respectively. The transverse die-cutting rule is located on the feeding side of the die-cutting connecting plate, the feeding direction of the front side of the transverse die-cutting rule is provided with the retaining mechanism, the retaining mechanism comprises a retaining plate 4.11 and a retaining fixing piece 4.12, the retaining plate is hinged to the bottom end of the retaining fixing piece through a hinge 4.13, and the top end of the retaining fixing piece is fixedly connected with the top plate. The contact surface of the material returning plate and the paper is provided with prepressing sponge 4.14. In addition, a waste cleaning mechanism 4.15 is arranged on the die cutting connecting plate. And two limiting screws 4.16 are arranged between the die cutting connecting plate and the material returning plate and are arranged in bilateral symmetry. The die cutting bottom plate and the stripper plate are provided with a knife gap 4.17 and a paper feeding hole 4.18 which are matched with the die cutting knife. The waste cleaning mechanism comprises two blowing pipes which are fixedly arranged above the lower paper holes. The paper die can be cut into required shapes according to use requirements, and when the moxa roll is rolled, the die cutting action can be switched according to requirements, so that the end socket and the end socket of the moxa roll can be realized.

When in work: the air cylinder drives the die cutting connecting plate, the blowing pipe arranged on the die cutting connecting plate and the die cutting knife to move downwards along the guide. Meanwhile, the die cutting connecting plate pushes the stripper plate to move downwards through the spring, and the prepressing sponge on the stripper plate prepresses the roll paper on the die cutting bottom plate. The cylinder piston rod continues to push the die cutting connecting plate to move downwards, so that the die cutting knife indirectly fixed on the die cutting connecting plate moves downwards, the spring is further compressed, the die cutting knife breaks through paper and enters a knife passing gap of the stripper plate and the die cutting bottom plate, and the paper cutting action is completed.

The transverse die-cutting rule is connected with the mounting plate through a pin shaft, and the mounting position and the height of the transverse die-cutting rule can be adjusted, so that the position of a transverse tangent line and the cutting depth can be changed, and the roll paper can be cut into a required shape. After paper cutting is completed, the cylinder piston drives the die cutting connecting plate to move upwards, the compressed spring is released, and the stripper plate is pressed downwards by the force released by the spring, so that the die cutting knife smoothly leaves the paper. When the die cutting machine rises to a certain height, the material returning plate and the die cutting connecting plate are limited by the limiting screws, the die cutting connecting plate drives the limiting screws, the limiting screws are matched with the springs to drive the material returning plate to move upwards, and when the die cutting connecting plate rises to the specified height, the blowing pipe blows air at fixed time to blow down waste paper which is die cut from the paper discharging hole, so that the die cutting is completed for one time.

The bottom of the retaining plate is in contact with the upper surface of the die cutting bottom plate and forms a certain inclination angle, when paper moves forwards, the retaining plate is slightly lifted upwards, the paper can smoothly pass through, and if the paper moves in the opposite direction, the retaining plate generates resistance, so that the paper cannot retreat. The paper that the die-cutting mechanism cut out is lower at the wing dress part in the use, has solved the problem that the reel paper is easily taken up by other moving parts in process of production, and the trouble that has significantly reduced has reduced the shut down number of times to improve product quality, improved product output, and practiced thrift the use amount of consumables. The waste paper removing method of the utility model adopts the suction way and uses the mechanical method to press down or push away the waste paper.

The utility model discloses a rubberizing mechanism 4, see fig. 5, establish bottom plate 5.1 respectively on frame 10 both sides, establish support 5.2 respectively on two bottom plates 5.1, step on foot bottom plate 5.3's both ends and link to each other with the lower part of two supports 5.2 respectively. The upper ends of the two supports 5.2 are connected with an upper connecting plate 5.7, the two ends of the gluing module 5.8 are respectively connected with the upper ends of the two supports 5.2, one end of the gluing module 5.8 is provided with a motor 5.6, one end of the climbing pipe 5.11 is fixed on the upper connecting plate 5.7, the other end of the climbing pipe is fixed on a sliding block of the gluing module 5.8, the glue gun support 5.10 is also fixed on the sliding block of the gluing module 5.8, and the glue gun 5.9 is fixed on the glue gun support 5.10. The cylinder 5.5 is fixed at the lower end of the upper connecting plate 5.7, and the moving end of the cylinder 5.5 is provided with a stepping plate 5.4.

The operation process of the gluing mechanism is as follows: the cylinder 5.5 acts under the control of the control cabinet electric appliance to lift the foot pedal 5.4 originally pressed on the foot pedal bottom plate 5.3, so that the clamped paper is loosened, the paper is taken by another mechanism (a strip winding mechanism), and after the paper is stretched in place, the cylinder 5.5 returns to enable the foot pedal bottom plate 5.3 to clamp the paper between the foot pedal bottom plates 5.3 again. At the moment, a motor 5.6 drives a sliding block of the gluing module 5.8 to move, a glue gun 5.9 is opened to spray glue, a climbing pipe 5.11 fixed on the sliding block of the gluing module 5.8, a glue gun bracket 5.10 and the glue gun 5.9 move together, the glue gun 5.9 flowing the glue is brought to the other end, an air pipe is arranged in the climbing pipe 5.11 to provide power for the action of the glue gun 5.9, and the glue gun 5.9 is closed at the same time after the movement is finished. At this time, glue is coated on the lower paper to complete one action. The utility model discloses rubberizing mechanism is used for spilling glue on paper, and glue is used for overcast and humid paper and bonding moxa stick, can realize that single gluey rifle individual action or a plurality of gluey rifle move the rubberizing respectively, can realize spraying atomizing glue by electric control with gluing the rifle, also can realize the threadiness and glue the line, also can glue the rifle cooperation and use for two.

The feeding mechanism 8 of the utility model, see fig. 6-1 to fig. 6-5, comprises a bottom plate 6.1, a left side plate shell 6.2 and a right side plate shell 6.2 are fixed on the top end of the bottom plate 6.1, a feeding nest A side 6.3 is arranged on one side inside the left side plate shell 6.2 and the right side plate shell 6.2, a feeding nest B side 6.4 is arranged on the other side inside the left side plate shell 6.2 and the right side plate shell 6.2, a blanking main shaft 6.7 is movably connected with the bottom end between the front end and the rear end inside the left side plate shell 6.2 and the right side plate shell 6.2 through a bearing, a charging basket 6.11 is arranged above the left side plate shell 6.2 and the right side plate shell 6.11, a barrel cover 6.12 is fixedly connected on the top end of the charging basket 6.3, a blanking hole 6.20 is arranged at the middle position between one side of the feeding nest A side 6.3 and one side of the feeding nest B side 6.4, about the inside top between the front and back both ends of curb plate shell 6.2 has material stirring shaft 6.5 through bearing swing joint, the outside fixedly connected with multiunit plectrum 6.6 of material stirring shaft 6.5, about one side fixedly connected with feed motor 6.10 of curb plate shell 6.2 rear end, feed motor 6.10's output passes through chain wheel structure and material stirring shaft 6.5, the one end of unloading main shaft 6.7 is connected, be provided with flange 6.9 between the bottom of storage bucket 6.11 and the top of controlling curb plate shell 6.2, the inside clearance mouth 6.23 that is provided with in the bottom of storage bucket 6.11 rear end, the inside of storage bucket 6.11 one side bottom is provided with observation window 6.22, the inside loading mouth 6.21 that is provided with in the top of storage bucket 6.11 opposite side, the inside of storage bucket 6.11 is provided with loose moxa and is convenient for the unloading mechanism. Still include loose moxa unloading mechanism of being convenient for, loose moxa unloading mechanism of being convenient for includes agitator motor 6.15, agitator motor 6.15 fixed connection is in bung 6.12 top one side, bearing frame 6.13 is installed to the intermediate position department of bung 6.12 bottom, the inside vertical grafting of bearing frame 6.13 has (mixing) shaft 6.14, the bottom fixedly connected with puddler 6.16 of (mixing) shaft 6.14, the welding of one side of puddler 6.16 has forces kickoff pole 6.17, the welding of the bottom of puddler 6.16 one side has forces kickoff board 6.18, the welding of the bottom of the inside one side of storage bucket 6.11 has hinders material stick 6.19. The top end of the stirring shaft 6.14 is connected with the output end of the stirring motor 6.15 through a gear set, and the vertical center line of the stirring rod 6.16 is coincided with the vertical center line of the stirring shaft 6.14, so that the moxa is scattered conveniently; specifically, moxa raw material is put into a charging bucket 6.11 from a feeding port 6.21, a stirring motor 6.15 is started to drive a stirring shaft 6.14 to rotate, a stirring rod 6.16, a forced material stirring rod 6.17 and a forced material stirring plate 6.18 at the bottom of the stirring shaft 6.14 start to rotate immediately, the material blocking rod 6.19 in the charging bucket 6.11 blocks the neutral position between the forced material shifting rod 6.17 and the forced material shifting plate 6.18, a group of shearing is formed by the three parts, the conglobated and agglomerated moxa is conveyed and scattered, the bearing seat 6.13 can ensure the stable rotation of the stirring shaft 6.14, and the function of loosening the moxa and facilitating the blanking is realized.

The unloading roller 6.8 has been cup jointed to the outside of unloading main shaft 7, and the inside of unloading roller 6.8 rear end both sides is provided with screw hole 6.25 respectively, and the outside of unloading roller 6.8 is provided with multiunit material cave 6.26, and the bottom of controlling curb plate shell 6.2 rear end is provided with bearing nest 6.24, and material cave 6.26 is equidistant range, and the outside shape and size phase-match of the inside of unloading roller 6.8 and unloading main shaft 6.7 is convenient for install fixedly. Specifically, according to the difference of moxa quality, the volume of rolling up the moxa is different and the moxa diameter of rolling up is different, how much of required unloading also can be different, the lower fine hair volume of every cave needs to be changed sometimes, just need a more suitable unloading roller 6.8, when needing to dismantle and change unloading roller 6.8, only need to pull down bearing nest 6.24, install the screw on screw hole 6.25, pull the screw hard, can take off unloading roller 6.8 from unloading main shaft 6.7, select unloading roller 6.8 that the size of material cave 6.26 is suitable to change, whole change process need not to open equipment wholly, the step is simple, realized the function of being convenient for dismantle and change the material roller.

The fixing piece 6.27 is arranged right below the discharging opening 20, the tray 6.29 is installed at the top end of the fixing piece 6.27, the electronic weighing sensor 6.28 is arranged between the bottom end of the tray 6.29 and the bottom end inside the fixing piece 6.27, the material pushing cylinder 6.31 is arranged on one side inside the tray 6.29 and fixed on the fixing piece 6.27, the material pushing plate 6.30 is installed on the piston rod side of the cylinder, the material pushing plate 6.30 can move inside the tray 6.29 through the action of the cylinder, and the tray 6.29 is arranged right below the discharging opening 6.20 so as to facilitate discharging and weighing. Specifically, moxa subjected to loosening and blanking steps falls onto the tray 6.29 along the blanking port 6.20, the electronic weighing sensor 6.28 at the bottom of the tray 6.29 weighs the moxa, when the weight of the moxa reaches the standard, the pushing cylinder 6.31 is started to push the pushing plate 6.30 in the tray 6.29 to push out the moxa in the tray 6.29, and in subsequent procedures, the fixing piece 6.27 can ensure that the tray 6.29 and the electronic weighing sensor 6.28 are relatively stable, and the functions of accurately feeding and reducing errors are achieved.

When the moxa conveying device is used, firstly, moxa raw materials are put into a charging basket 6.11 from a feeding port 6.21, a stirring motor 6.15 is started to drive a stirring shaft 6.14 to rotate, a stirring rod 6.16, a forced material shifting rod 6.17 and a forced material shifting plate 6.18 at the bottom of the stirring shaft 6.14 immediately start to rotate, a material blocking rod 6.19 in the charging basket 6.11 blocks a neutral position between the forced material shifting rod 6.17 and the forced material shifting plate 6.18, a group of shearing is formed by the stirring rod, the forced material shifting rod 6.17 and the forced material shifting plate 6.18, the grouped and blocky moxa is conveyed and scattered, a bearing seat 6.13 can ensure the stable rotation of the stirring shaft 6.14, and the function of loosening the moxa and facilitating the blanking is realized; the material stirring shaft 6.5 drives the stirring sheet 6.6 to rotate along the arrow direction, and a feeding nest A side 6.3 and a feeding nest B side 6.4 ingeniously form a spiral centrifugal mechanism, so that the material is fed to the blanking roller 6.8. According to the different moxa quality, the different moxa rolling volume and the different moxa rolling diameter, the different needed baiting amount can also be different, the needed lint amount of each hole needs to be changed sometimes, a proper baiting roller 6.8 is needed, when the baiting roller 6.8 needs to be disassembled and replaced, only the bearing nest 6.24 needs to be disassembled, the screw is installed on the screw hole 6.25, the baiting roller 6.8 can be taken down from the baiting main shaft 6.7 by pulling the screw with force, the baiting roller 6.8 with the proper size of the material hole 6.26 is selected for replacement, the whole replacing process does not need to open the whole device, the steps are simple, and the function of conveniently disassembling and replacing the material roller is realized; after the moxa wool is loosened, the poking sheet 6.6 is driven by the material poking shaft 6.5 to rotate along the arrow direction, the feeding nest A side 6.3 and the feeding nest B side 6.4 ingeniously form a spiral centrifugal mechanism, the moxa wool is fed to the feeding roller 6.8, when the feeding roller 6.8 feeds downwards, the moxa wool falls off from the feeding roller 6.8 and falls onto the tray 6.29 along the feeding opening 6.20, the electronic weighing sensor 6.28 at the bottom of the tray 6.29 weighs the moxa wool, when the weight of the moxa wool reaches the standard, the material pushing cylinder 6.31 is started to push the material pushing plate 6.30 in the tray 6.29 to push out the moxa wool in the tray 6.29, and the moxa wool enters the subsequent process, the fixing piece 6.27 can ensure that the relative stability of the tray 6.29 and the electronic weighing sensor 6.28 is ensured, and the function of accurate feeding and error reduction is realized.

The utility model discloses a feeding mechanism 7, see 7-1 to 7-7, establish feed inlet 7.2, storage silo 7.3, cylinder one 7.4, cylinder two 7.5, cylinder three 7.6, go up circular arc board 7.7, circular arc and turn over board 7.8, paper bracket 7.9 on frame 10. The piston of the first air cylinder 7.4 is fixedly connected with the cylinder body of the third air cylinder 7.6, the piston of the second air cylinder 7.5 is fixedly connected with the cylinder body of the first air cylinder 7.4, the cylinder body of the first air cylinder 7.4 is fixedly connected with the storage bin 7.3, and the cylinder body of the second air cylinder 7.5 is fixedly connected with the rack 10. The storage bin 7.3 comprises a bin wall, an upper arc plate 7.7 at the top and an arc turning plate 7.8 at the bottom, the lower end of a piston rod of the cylinder III 7.6 is fixedly connected with the upper arc plate 7.7, the arc turning plate 7.8 is hinged with the bin wall, a return spring is arranged between the arc turning plate 7.8 and the bin wall, paper brackets 7.9 are fixed on the racks 1 at two sides of the arc turning plate 7.8, each paper bracket 7.9 comprises a bracket 7.91 and a paper passing gap mechanism 7.92 horizontally arranged on the bracket 7.91, and a feed inlet 7.2 is arranged on the rack 1 corresponding to the storage bin 7.3. The first air cylinder 7.4, the second air cylinder 7.5 and the third air cylinder 7.6 adopt stroke-adjustable air cylinders, and piston rods of the stroke-adjustable air cylinders are provided with adjustable screw caps 7.10. The edge of the paper gap structure 7.92 is a circular arc edge, so that paper is prevented from being damaged. The utility model discloses can realize the processing manufacturing of baotou and not baotou moxa stick, especially improve the machining efficiency of not baotou moxa stick, reduce manufacturing cost.

When the moxa stick is used, two ends of the moxa stick need to be closed, and the two ends of the moxa stick do not need to be closed are called as a wrapping head and a non-wrapping head. Firstly, moxa is placed on the paper, then the paper continuously runs downwards, and the moxa with the paper is pressed into the rolled material holes. The paper with the same width as the moxa is used, the two ends of the moxa cannot be wrapped, and the rolled-out strip is a moxa strip without wrapping heads. If paper wider than moxa (such as 200 angstroms wide and 290 angstroms wide) is used to cut the paper into "T" shape, when the paper is pounded down, the paper is pounded down at the position of moxa with the same width, because the two ends are supported by paper brackets and move downwards, the paper at the two ends of the paper is wrapped on the end face of the moxa, and the paper is in a standing state. Then the moxa stick rolled by the rolling mechanism is a tipping moxa stick.

The specific process is as follows: the material enters the oval storage bin from the feeding hole, the cylinder I acts to push the cylinder III and the upper arc plate of the oval storage bin connected to the cylinder III so that the oval storage bin is changed into a round storage bin, the loose material is compressed into a volume and is compressed into an approximate cylinder, and the position of the material is relatively moved; meanwhile, the paper is pulled into a paper passing gap of the paper bracket by a paper pulling mechanism of the matched equipment, namely the paper is rolled above the rolling position and below the feed opening; after the first step is finished, the second cylinder acts to enable the circular bin, the first cylinder and the third cylinder to move downwards together, the position of the material is transferred, and square paper is pressed downwards; the third cylinder acts to push the upper semicircle of the oval storage box to enable the material to continuously move downwards, and push away the two semicircular workpieces forming the storage bin, so that the material is moved out, transferred to paper and pressed into the rolling cavity; the down velvet and paper pressing steps are completed, and the first cylinder, the second cylinder and the third cylinder return to the initial state. After that, by rolling, the moxa stick made of square paper with the width equal to that of moxa can be rolled into a shape without end enclosure, if the paper with the width larger than that of moxa is used, the moxa stick made into end enclosure can be rolled, and the purpose of rolling the head enclosure and the moxa stick without end enclosure can be realized. Each cylinder is provided with a relative guide mechanism, and the action sequence of the three cylinders can be properly adjusted in the process, and is not in a fixed mode.

The utility model discloses an embodiment of batching mechanism and batching mechanism, refer to fig. 8-1, fig. 8-2, be equipped with guide rail 8.1 in the both sides of frame 10, be equipped with the batching motion subassembly on guide rail 8.1, the batching motion subassembly includes batching body 8.4 and drives the first straight line module of batching body 8.4 at the guide rail back-and-forth movement, 8.4 inside being equipped with respectively of batching body can free rotation prop 8.6 and roll up thick stick 8.5, the top is equipped with the stock form clamp and gets mechanism 8.7. The front end of the rolling strip motion component is provided with a rolling plate 8.2, the rear end of the rolling strip motion component is provided with a sheet base motion mechanism for driving a sheet base 8.8 to move back and forth, the sheet base motion mechanism comprises a sheet base clamp 8.9 and a second linear module, the sheet base clamp 8.9 is formed by fixing two clamping plates, one end of the sheet base is arranged between the two clamping plates, the other end of the sheet base sequentially passes through the lower part of a rolling plate clamping mechanism 8.7, the surface of a supporting rod 8.6 and the surface of a rolling rod 8.5 to form a rolling hole 8.3 on the inner side of a rolling strip body, then the sheet base 8.8 passes through the surface of the rolling plate 8.2, the tail end of the rolling plate is fixed below the rolling plate 8.2, and the rolling paper obtained by the rolling plate clamping mechanism 8.7 enters the rolling hole. The moxa roll strip equipment also comprises a control system which can control the work of the roll strip motion assembly and the sheet base motion mechanism, wherein the control system can change the stretching length of the sheet base in the back-and-forth movement process of the sheet base motion mechanism, and change the size of the roll forming holes, thereby adjusting the roll forming diameter of the moxa roll. First straight line module and second straight line module all include a motor 8.11 and through the ball 8.10 of motor 8.11 drive, be equipped with the slider on the ball, slider on the first straight line module is connected with 4 bottoms of roll strip bodies, and slider on the second straight line module is connected with piece base clip 8.9 bottoms.

In the use process, when the sheet base movement mechanism adopts the sheet base clamp and the second linear module, the sheet base clamp can clamp and fix the sheet base, the sheet base clamp is fixed on the sliding block of the second linear module, and the motor drives the ball screw to rotate so as to drive the sliding block and the sheet base clamp fixed on the sliding block to move, so that the sheet base is tensioned and loosened, the length of the sheet base is changed to a certain extent, the size of the rolling cavity is changed, and the diameter of the rolled moxa stick is adjusted; during specific work, when the sheet base clamp starts to move from an initial loose state, after the sheet base clamp reaches a diameter size position in a short time, the roll paper clamping mechanism clamps and clamps the roll paper, the roll paper is placed in the roll paper hole, after sufficient moxa materials are placed, the front end of the roll paper moving assembly is started again, the roll paper moving assembly moves forwards to roll Ai Rongliao into strips in a mode similar to hand roll paper rubbing, the sheet base clamp tightens the sheet base at the moment, the moxa strips are released quickly, and the attached drawing 4 shows a schematic view of the state of the moxa strips in the roll paper.

The utility model discloses another kind of embodiment of batching mechanism and batching mechanism, refer to fig. 8-3, fig. 8-4, be equipped with guide rail 8.1 in the frame both sides, be equipped with a batching motion subassembly on guide rail 8.1, a batching motion subassembly includes a batching body 8.4 and drives a batching body 8.4 at the first straight line module of guide rail back-and-forth movement, a batching body 8.4 is inside to be equipped with respectively can free rotation prop thick stick 8.6 and roll up thick stick 8.5, the top is equipped with the stock form clamp and gets mechanism 8.7. The front end of the rolling strip motion component is provided with a rolling plate 8.2, the rear end of the rolling strip motion component is provided with a sheet base motion mechanism for driving a sheet base 8.8 to move back and forth, the sheet base motion mechanism comprises a sheet base shaft 8.13 for winding the sheet base 8.8 and a power mechanism, the power mechanism adopts a motor 8.11 connected with one end of the sheet base shaft 8.13 through a belt, the motor 8.11 is arranged below the sheet base shaft 8.13 and drives the sheet base shaft 8.13 to rotate and wind the sheet base 8.8 to change the stretching length of the sheet base 8.8, one end of the sheet base 8.8 is wound on the sheet base shaft 8.13, the other end of the sheet base 8.8 sequentially passes through the lower part of the rolling paper clamping mechanism 8.7, the surface of the supporting rod 8.6 and the surface of the rolling rod 8.5, a rolling hole 8.3 is formed in the inner side of the rolling strip body, then the sheet base 8.8 passes through the surface of the rolling plate 8.2, the tail end of the rolling plate is fixed below the rolling plate 8.2, and the rolling paper obtained by the rolling paper clamping mechanism 8.7 is clamped into the rolling hole. The moxa roll strip equipment further comprises a control system capable of controlling the work of the roll strip motion assembly and the film base motion mechanism, wherein the control system can change the stretching length of the film base in the forward and backward movement process of the film base motion mechanism, and change the size of the roll making holes, so that the moxa roll diameter is adjusted. The first linear module comprises a motor 8.11 and a ball screw 8.10 driven by the motor 8.11, a sliding block is arranged on the ball screw, and the sliding block on the first linear module is connected with the bottom of the strip rolling body 8.4. When the sheet base movement mechanism adopts the sheet base shaft and the power mechanism, the sheet base is wound on the sheet base shaft, and the power mechanism drives the sheet base shaft to rotate in the forward direction or the reverse direction, so that the sheet base is tensioned and loosened, the length of the sheet base is changed to a certain extent, the size of the rolling holes is changed, and the diameter of the rolled moxa sticks is adjusted. When the rolling machine works, when the rolling strip moving assembly and the film base clamp or the film base shaft return to the initial state, the rolling paper clamping mechanism clamps the rolling paper and puts the rolling paper into the rolling paper cavity, after enough moxa wool materials are put into the rolling paper cavity, the rolling strip moving assembly and the film base clamp or the film base shaft are started again, the rolling strip Ai Rongliao is rolled into a strip in a mode similar to that of rolling paper by hands in a forward movement mode, and the strip is released. Figures 8-4 show a schematic view of a moxa roll in the process of being rolled.

The utility model discloses material loading portion is spiral feed mechanism, refer to fig. 9-1 to 9-6, is that the feed cylinder 9.14 is installed on the top of bottom plate 9.3 at the inside bottom fixedly connected with bottom plate 9.3 of frame 10, the inside bottom of feed cylinder 9.14, and conveying body 9.9 is installed to the rear end of frame 10. Conveying pipe body 9.9's inside is vertical to be provided with rotatory main shaft 9.11, the outside fixedly connected with helical blade 9.10 of rotatory main shaft 9.11, conveying pipe body 9.9 inside bottom is installed the spiral and is gone up material mouthful 9.7, driving motor 9.8 is installed to one side of frame 10 bottom, driving motor 9.8's output is connected with rotatory main shaft 9.11 through the coupling, conveying pipe body 9.9's bottom and feed cylinder 9.14's inside intercommunication, feed port 9.16 is installed to one side of feed cylinder 9.14, discharge gate 9.12 is installed on conveying pipe body 9.9's top. After moxa enters the spiral feeding port 9.7, the driving motor 9.8 is started, the rotating main shaft 9.11 in the spiral feeding port is driven to rotate under the action of the driving motor 9.8, the conveying pipe body 9.9 is arranged outside the rotating main shaft 9.11, the moxa is conveyed upwards by utilizing the conveying pipe body 9.9, the discharging port 9.12 is arranged at the top of the conveying pipe body 9.9, so that the moxa is led out from the discharging port 9.12, if the unpowered part of the discharging port 9.12 is longer, a baffle plate, a reverse thread and methods such as blowing can be set at the outlet, the moxa is forced to move towards the outlet direction, the conveying speed is high, and the efficiency is high.

One side of the feeding motor 9.2 is provided with a bearing seat 9.4, the top end of the bearing seat 9.4 is provided with a rotating shaft 9.15, the bottom end of the rotating shaft 9.15 is provided with a forced feeding plate 9.5, the top end of the rotating shaft 9.15 is provided with a stirring plate 9.13, the output end of the feeding motor 9.2 is connected with the rotating shaft 9.15 through a shaft connector, and the stirring plate 9.13 is an inclined plate. Moxa is poured into a material cylinder 9.14, then a feeding motor 9.2 is started, a rotating shaft 9.15 is driven to rotate under the action of the feeding motor 9.2, the top of the rotating shaft 9.15 is connected with a stirring plate 9.13, a forced feeding plate 9.5 is installed at the bottom end of the rotating shaft 9.15, so that the stirring plate 9.13 and the forced feeding plate 9.5 are driven to rotate, the moxa is stirred and loosened by the aid of the stirring plate 9.13, the moxa is made to do centrifugal motion by the aid of the forced feeding plate 9.5, the moxa is sent to a feeding port 9.16, and a spiral position is arranged at the feeding port 9.16, so that the moxa is centrifugally fed to a spiral feeding port 7. The bottom end of the inner side of the charging barrel 9.14 is provided with a forced material baffle 9.6, the forced feeding plate 9.5 is in a Contraband shape, and the forced feeding plate 9.5 and the forced material baffle 9.6 are arranged in a staggered way. Be provided with in the front and force striker plate 9.6, force striker plate 9.6 and force the cooperation of feeding plate 9.5, can hinder the moxa to rotate around feed cylinder 9.14 inner wall, simultaneously with moxa to spiral material loading mouth 9.7 department guide, get into the inside of conveying pipe body 9.9, when carrying heavier or lighter material, can increase or reduce according to the degree of difficulty of carrying and force the quantity of feeding plate 9.5 and force striker plate 9.6, do not have the influence to the performance of other machines.

When in use, firstly, moxa is poured into the material cylinder 9.14, then the feeding motor 9.2 is started, the rotating shaft 9.15 is driven to rotate under the action of the feeding motor 9.2, the top of the rotating shaft 9.15 is connected with the stirring plate 9.13, the bottom end of the rotating shaft 9.15 is provided with the forced feeding plate 9.5, so that the stirring plate 9.13 and the forced feeding plate 9.5 are driven to rotate, the moxa is stirred and loosened by the stirring plate 9.13, then the moxa is centrifugally moved by the forced feeding plate 9.5 and is sent to the feeding port 9.16, the feeding port 9.16 is provided with a spiral position, so that the moxa is centrifugally fed to the spiral feeding port 9.7, the forced baffle plate 9.6 is arranged in the front, the forced baffle plate 9.6 is matched with the forced feeding plate 9.5, the moxa is prevented from rotating around the inner wall of the material cylinder 9.14, and is guided to the spiral feeding port 9.7, the moxa conveying device enters the conveying pipe body 9.9, when heavy or light materials are conveyed, the number of the forced feeding plates 9.5 and the forced material blocking plates 9.6 can be increased or reduced according to the conveying difficulty, after moxa enters the spiral feeding port 9.7, the driving motor 9.8 is started, the rotating main shaft 9.11 inside the conveying pipe body is driven to rotate under the action of the driving motor 9.8, the conveying pipe body 9.9 is arranged outside the rotating main shaft 9.11, the moxa is conveyed upwards by the conveying pipe body 9.9, the discharging port 9.12 is formed in the top of the conveying pipe body 9.9, so that the moxa is led out from the discharging port 9.12, if the unpowered part of the discharging port 9.12 is long, the material blocking plates and the reverse threads can be set at the discharging port, the moxa is forced to move towards the discharging port according to methods such as blowing, the conveying speed is high, and the efficiency is high.

The utility model discloses a conveying part is equipped with little conveyer belt 10.5 and big conveyer belt 10.9 on frame 10, and little conveyer belt 10.5 can be smooth carry the moxa stick that the system is good for the outside big conveyer belt 10.9 of machine from the machine is inside, and big conveyer belt 10.9 can in time receive the moxa stick that has the inside little conveyer belt 10.5 of machine to arrange its moxa stick neatly to concentrate a specific position, supply people's frock case to accomodate. The utility model discloses a set for operation display panel 10.6 on the accessible frame 10 and go on.

The utility model discloses establish dust removal portion in frame 10, see fig. 10, adopt enclosed construction 10.1 to the upper portion of frame 10, establish a roll strip dust cage 10.7 in the lower part of roll strip mechanism, establish roll cloth dust cage 10.8 in roll cloth mechanism department, locate to establish unloading dust cage 10.4 in feed mechanism, locate to establish feed dust cage 10.2 in feed mechanism, roll strip dust cage 10.7, roll cloth dust cage 10.8, unloading dust cage 10.4 and feed dust cage 10.2 are all connected through the dust exhausting fan in corresponding dust exhausting pipe and the dust exhausting fan cabinet 10.3 in the frame 10. The utility model discloses divide into a plurality of independent regions with the machine, to having the regional targeted dust removal that has the dust, the dust removal wind discharges out through twice filtration, great improvement indoor environment.

Claims (10)

1. The utility model provides a multi-functional full-automatic moxa stick all-in-one of rolling up of environment-friendly, includes the frame, characterized by is in establish in the frame by the material loading portion of switch board control, roll up strip portion and conveying part, it includes to roll up strip portion: the paper feeding mechanism is arranged at one end of the rack and used for feeding paper into roll paper, the floating mechanism can provide certain tension for the paper fed on the roll paper, the die cutting mechanism can die-cut the paper passing through the floating mechanism into a required shape, the gluing mechanism is used for spraying glue on the paper subjected to die cutting with the paper subjected to the die cutting and adhering moxa sticks, the feeding mechanism is used for providing raw materials for the blanking mechanism, the raw materials provided by the feeding mechanism are conveyed to the blanking mechanism of the moxa stick rolling mechanism, and the paper passing through the gluing mechanism is fed by the blanking mechanism to form the moxa stick rolling mechanism and the cloth rolling mechanism.

2. The environment-friendly multifunctional full-automatic moxa roll integrated machine according to claim 1, wherein the paper placing mechanism is that bearings are respectively arranged on two sides of the frame, an air expansion shaft is arranged between the two bearings, the roll paper is arranged on the air expansion shaft, and the air expansion shaft is driven by a motor through an open type coupling.

3. The environment-friendly multifunctional full-automatic moxa roll rolling all-in-one machine according to claim 1, wherein the floating mechanism is characterized in that two guide shafts are respectively arranged on two sides of the machine frame, a V-shaped bearing is arranged between the two guide shafts on each side, a floating rod is connected between the two V-shaped bearings, a paper passing rod A and a paper passing rod B are arranged at the upper ends of the two guide shafts on the two sides, and a paper moving route of roll paper is wound by the paper passing rod A, the floating rod and the paper passing rod B.

4. The environment-friendly multifunctional full-automatic moxa roll integrated machine according to claim 1, wherein the die-cutting mechanism is arranged above a die-cutting bottom plate, the die-cutting bottom plate is arranged on a fixed bottom plate and comprises a die-cutting connecting plate and a stripper plate which are arranged up and down, the lower surface of the die-cutting connecting plate is provided with a mounting plate, a plurality of die-cutting knives are mounted on the mounting plate, and the die-cutting knives comprise transverse die-cutting knives and side die-cutting knives positioned at two sides of the transverse die-cutting knives; guide sleeves are fixedly arranged at four corners of the die-cutting connecting plate, guide posts are arranged in the guide sleeves in a matching manner, and the bottom ends of the guide posts penetrate through the stripper plate to be fixedly connected with the die-cutting bottom plate, so that the die-cutting connecting plate and the stripper plate can move up and down along the guide posts; a top plate is fixedly arranged at the top end of the guide post, an air cylinder is fixedly arranged on the lower surface of the top plate, and a piston rod of the air cylinder is fixedly connected with the die-cutting connecting plate and used for driving the die-cutting connecting plate to move up and down; a spring is sleeved on the guide post between the die cutting connecting plate and the material returning plate, and the upper end and the lower end of the spring are fixedly connected with the die cutting connecting plate and the material returning plate respectively; the transverse die-cutting rule is positioned on the feeding side of the die-cutting connecting plate, the feeding direction of the front side of the transverse die-cutting rule is provided with a stopping mechanism, the stopping mechanism comprises a stopping plate and a stopping fixing piece, the stopping plate is hinged with the bottom end of the stopping fixing piece through a hinge, and the top end of the stopping fixing piece is fixedly connected with the top plate; the contact surface of the stripper plate and the paper is provided with prepressing sponge.

5. The environment-friendly multifunctional full-automatic moxa roll rolling integrated machine according to claim 1, wherein the gluing mechanism is provided with brackets on two sides of the machine frame, foot stepping bottom plates are arranged on the lower parts of the two brackets, upper connecting plates are arranged on the upper ends of the two brackets, two ends of a gluing module are respectively connected with the upper ends of the two brackets, and one end of the gluing module is provided with a motor; one end of the climbing pipe is fixed on the upper connecting plate, the other end of the climbing pipe is fixed on a sliding block of the gluing module, and a gluing gun is arranged on the sliding block of the gluing module; the cylinder is fixed at the lower extreme of upper junction plate, and the moving end of cylinder is installed and is stepped on the sole.

6. The environment-friendly multifunctional full-automatic moxa roll integrated machine according to claim 1, wherein the feeding mechanism comprises a bottom plate, a left side plate shell and a right side plate shell are mounted at the top end of the bottom plate, a feeding nest A side is mounted at one side inside the left side plate shell and the right side plate shell, a feeding nest B side is mounted at the other side inside the left side plate shell and the right side plate shell, a discharging main shaft is movably connected to the bottom end between the front end and the rear end inside the left side plate shell and the right side plate shell through a bearing, a charging basket is arranged above the left side plate shell and the right side plate shell, a barrel cover is fixedly connected to the top end of the charging basket, a discharging port is arranged in the middle position between the feeding nest A side and the feeding nest B side, a discharging roller is sleeved outside the discharging main shaft, a fixing member is arranged right below the discharging port for forcibly feeding shifting a shifting blade of the discharging roller, and a loose moxa facilitating discharging mechanism is arranged inside the charging basket; loose moxa feed mechanism of being convenient for includes agitator motor, agitator motor fixed connection is in bung top one side, and the intermediate position department of bung bottom installs the bearing frame, and the vertical grafting in inside of bearing frame has the (mixing) shaft, the bottom fixedly connected with puddler of (mixing) shaft, one side welding of puddler has forces the kickoff pole, and the bottom welding of puddler one side has forces the kickoff, and the bottom of the inside one side of storage bucket is installed and is hindered the material stick.

7. The environment-friendly multifunctional full-automatic moxa roll rolling all-in-one machine according to claim 1, wherein the blanking mechanism comprises a feeding hole, a storage bin, a first air cylinder, a second air cylinder, a third air cylinder, an upper circular arc plate, a circular arc turning plate and a paper bracket which are arranged on the rack; the piston of the first cylinder is fixedly connected with the cylinder body of the third cylinder, the piston of the second cylinder is fixedly connected with the cylinder body of the first cylinder, the cylinder body of the first cylinder is fixedly connected with the storage bin, and the cylinder body of the second cylinder is fixedly connected with the rack; the paper storage bin is composed of a bin wall, an upper arc plate at the top and an arc turning plate at the bottom, the lower end of a piston rod of the cylinder III is fixedly connected with the upper arc plate, the arc turning plate is hinged with the bin wall, a reset spring is arranged between the arc turning plate and the bin wall, paper brackets are fixed on the racks on two sides of the arc turning plate, each paper bracket is composed of a bracket and a paper passing gap horizontally arranged on the bracket, and the feed inlet is arranged on the rack corresponding to the storage bin.

8. The environment-friendly multifunctional full-automatic moxa roll rolling integrated machine according to claim 1, wherein the roll strip mechanism and the cloth rolling mechanism are provided with guide rails on two sides of the machine frame, the guide rails are provided with roll strip moving components, the roll strip moving components comprise roll strip bodies and first linear modules driving the roll strip bodies to move back and forth on the guide rails, the roll strip bodies are respectively provided with a support rod and a freely rotatable roll rod inside, and a roll paper clamping mechanism is arranged above the roll strip bodies; a rolling plate is arranged at the front end of the rolling strip motion component; a film base moving mechanism for driving a film base to move back and forth is arranged at the rear end of the rolling strip moving assembly, one end of the film base is connected with the film base moving mechanism, the other end of the film base sequentially passes through the lower part of the roll paper clamping mechanism, the surface of the supporting rod and the surface of the rolling rod, a rolling cavity is formed on the inner side of the rolling strip body, the film base passes through the surface of the rolling plate, the tail end of the film base is fixed below the rolling plate, and the roll paper clamping mechanism clamps the roll paper after the rolling strip moving assembly finishes rolling and returns and is placed in the rolling cavity; the moxa roll strip equipment also comprises a control system which can control the work of the roll strip motion assembly and the sheet base motion mechanism, wherein the control system can change the stretching length of the sheet base in the back-and-forth movement process of the sheet base motion mechanism, and change the size of the roll forming holes, thereby adjusting the roll forming diameter of the moxa roll.

9. The environment-friendly multifunctional full-automatic moxa roll integrated machine according to claim 1, wherein the feeding part is a spiral feeding mechanism, a bottom plate is fixedly connected to the bottom end inside the frame, a charging barrel is mounted at the top end of the bottom plate, a feeding motor is mounted at the bottom end inside the charging barrel, and a conveying pipe body is mounted at the rear end of the frame; the inside vertical rotating main shaft that is provided with of conveying body, the outside fixedly connected with helical blade of rotating main shaft, the spiral material loading mouth is installed to the bottom of conveying body inside, and driving motor is installed to one side of frame bottom, and the discharge gate is installed on the top of conveying body.

10. The environment-friendly multifunctional full-automatic moxa roll integrated machine according to claim 1, wherein a dust removing part is arranged on the frame, the dust removing part comprises a closed structure which is adopted for the upper part of the frame, a moxa roll dust collecting cover is arranged at the lower part of the moxa roll mechanism, a moxa roll dust collecting cover is arranged at the moxa roll mechanism, a blanking dust collecting cover is arranged at the blanking mechanism, a feeding dust collecting cover is arranged at the feeding mechanism, and the moxa roll dust collecting cover, the blanking dust collecting cover and the feeding dust collecting cover are all connected with a dust removing fan on the frame through corresponding dust collecting pipelines.

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