CN218022614U - Sleeve unloading and adjustable shaping mechanism - Google Patents

Abstract

The utility model discloses a mechanism of sleeve unloading and adjustable plastic, its characterized in that: including the organism, establish shedding mechanism and plastic mechanism on the organism, shedding mechanism is including the liftable sleeve that is used for unloading, plastic mechanism is including fixed complete machine mechanism mounting panel of establishing on the organism and establishing two plastic supports that can relative motion on plastic mechanism mounting panel, installs preceding integer board and back integer board on two plastic supports respectively, preceding integer board or back integer board are by installing the front and back plastic cylinder drive removal on the plastic support, the dorsal part of preceding integer board is fixed to be equipped with about the plastic cylinder with fix about on the plastic cylinder free end about the integer board support, the mechanism of this adjustable plastic can carry out the plastic when packing, makes the packing more tight reality, convenient debugging simultaneously to satisfy different volumetric packing.

Description

Sleeve unloading and adjustable shaping mechanism

The technical field is as follows:

the utility model relates to a equipment for packing suitable for packing trades such as rice, coarse cereals food, especially a mechanism that the sleeve is unloaded and adjustable plastic.

Background art:

at present, the packaging styles of rice, coarse cereal foods and the like are various, wherein six-face vacuum forming styles are more and more popular, but the various packaging modes are generally packaged manually, the production efficiency is low, the packaging forming is poorer, and along with the gradual improvement of the forming requirements of people on the six-face vacuum, the industry trend of six-face vacuum packaging of rice bags is realized by adopting complete forming equipment; the packaging volume of the existing individual automatic or semi-automatic packaging equipment cannot be adjusted, so that the equipment is troublesome to debug.

The invention content is as follows:

in view of the above-mentioned problem that exists, the utility model aims to provide a mechanism of adjustable plastic, the mechanism of this adjustable plastic can carry out the plastic when packing, makes the packing more compact, and convenient debugging simultaneously to satisfy different volumetric packagings.

The utility model is realized by adopting the following scheme,

the utility model discloses the mechanism of sleeve unloading and adjustable plastic, its characterized in that: including the organism, establish shedding mechanism and plastic mechanism on the organism, shedding mechanism is including the liftable sleeve that is used for unloading, plastic mechanism is including fixed complete machine mechanism mounting panel of establishing on the organism and establishing two plastic supports that can relative motion on plastic mechanism mounting panel, installs preceding integer plate and back integer plate on two plastic supports respectively, preceding integer plate or back integer plate are by installing the front and back plastic cylinder drive removal on the plastic support, the dorsal part of preceding integer plate is fixed to be equipped with about plastic cylinder and fix about on the plastic cylinder free end about, around on the integer plate support respectively fixed be equipped with left integer plate, right integer plate, lift guide rail mount pad, lifting guide rail and electric putter who fix on the lift guide rail mount pad are installed to the bottom of complete machine mechanism mounting panel, install down plastic cylinder mount pad on electric putter's the free end, the fixed plastic cylinder that is equipped with down on the plastic cylinder mount pad down, fixed mounting has down integer plate on the free end of lower plastic cylinder.

Furthermore, the lifting guide rail mounting seat is L-shaped, the fixed end of the electric push rod is mounted at the lower turning part of the L-shaped lifting guide rail mounting seat, the lifting guide rail is arranged on the vertical part of the lifting guide rail mounting seat, the lower shaping cylinder mounting seat is in sliding fit with the lifting guide rail, the lower shaping cylinder mounting seat is turning-shaped, the upper transverse part of the lower shaping cylinder mounting seat is provided with the lower shaping cylinder, and the side part of the lower shaping cylinder mounting seat is in sliding connection with the lifting guide rail.

Furthermore, the back sides of the front shaping plate and the back shaping plate are respectively provided with a shaping connecting seat, a rubber pad is connected between the shaping connecting seat and the front shaping plate or the back shaping plate, a plurality of shaping plate guide shafts are installed on the back side of the shaping connecting seat, a plurality of sliding guide sleeves in sliding fit with the shaping plate guide shafts are installed on the shaping support, the front and back shaping cylinders are fixedly installed on the shaping support, and the free ends of the front and back shaping cylinders are connected with the shaping connecting seat.

Furthermore, a vibration motor acting on the rear shaping plate is fixedly arranged on the shaping connecting seat on the rear shaping plate.

Furthermore, above-mentioned preceding integer board is parallel to each other with back integer board, left side integer board is parallel to each other with right integer board, and preceding integer board, back integer board are perpendicular to left integer board, right integer board mutually, and lower integer board all is perpendicular with preceding integer board, back integer board, left integer board and right integer board.

Furthermore, a movable guide rail is arranged on the mounting plate of the whole mechanism, the lower parts of the shaping supports are connected to the movable guide rail in a sliding mode, a ball screw is connected between the two groups of shaping supports in a penetrating mode, and two sections of threads with opposite turning directions are arranged on the ball screw, so that the two groups of shaping supports can move relatively close to or relatively far away from each other when the ball screw rotates.

Liftable sleeve installs on the lifter plate of unloading, and the lifter plate of unloading is installed on the organism, the lifter plate sliding connection of unloading is on the riser guide of vertical setting, riser guide fixes on the riser guide frame of unloading, at the fixed synchronous belt of unloading that is equipped with the driving motor of unloading and works by the driving motor drive of unloading on riser guide frame upper portion, the lifter plate of unloading is fixed on the synchronous belt of unloading, and telescopic top of liftable has the transition fill that is the awl fill form, can be equipped with the automatically controlled valve between transition fill and the liftable sleeve upper portion to let the material can follow the leading-in liftable sleeve of transition fill.

Before production, the ball screw is driven to synchronously rotate by rotating the hand wheel, so that the two shaping supports can relatively move close to or away from each other through two sections of threads with opposite rotating directions on the ball screw, and the debugging of the packaging bag in the front and back directions is realized; can promote down shaping cylinder mount pad through electric putter, realize down that shaping cylinder, shaping plate wholly shift up or move down to satisfy the debugging of different volume wrapping bags, when production, electric putter is fixed promptly, and shaping plate goes up and down under the drive of lower shaping cylinder, thereby realizes the wrapping bag at the ascending compaction of upper and lower side.

Therefore, the utility model discloses the mechanism of adjustable plastic can carry out the plastic when packing, makes the packing more compact, and convenient debugging simultaneously to satisfy different volumetric packagings.

Description of the drawings:

the utility model will be further explained with the attached drawings;

FIG. 1 is a schematic view of a front view configuration of a reforming mechanism moving directly below a discharge mechanism;

FIG. 2 is a schematic view of the front view configuration of the reforming mechanism moving directly below the bag arranging and heat sealing mechanism;

FIG. 3 is a side view of FIG. 1;

FIG. 4 is a schematic view of the construction of the discharge mechanism;

FIG. 5 is a schematic perspective configuration of the reforming mechanism;

FIGS. 6 and 7 are schematic views of the open and closed working states of the shaping mechanism;

FIGS. 8 and 9 are schematic views showing the construction of the lower shaping plate in two working states of ejection and retraction, respectively;

FIG. 10 is a schematic front view of the heat sealing mechanism for arranging the bags;

FIG. 11 is a partial view of FIG. 10;

FIG. 12 is a schematic perspective view of the bag arranging mechanism;

fig. 13 is a partial configuration schematic of fig. 12.

FIGS. 14-15 are schematic views of the construction of the bag outside organizer finger bars and the bag inside organizer finger bars in different operative positions;

fig. 16 is a schematic perspective view of the material (rice, miscellaneous cereals, etc.) loaded in the packaging bag.

The specific implementation mode is as follows:

the present invention will be further described with reference to the accompanying drawings and the following detailed description.

Six vacuum forming mechanism of wrapping bag include organism 1, establish discharge mechanism 2, plastic mechanism A on organism 1, drive plastic mechanism horizontal displacement's removal cylinder mechanism 3 and reason bag heat-seal mechanism B.

The discharging mechanism 2 comprises a lifting sleeve 201 for discharging, the lifting sleeve 201 is installed on a discharging lifting plate 202, the discharging lifting plate 202 is connected to a vertically arranged lifting guide rail 203 in a sliding manner, the lifting guide rail 203 is fixed on a discharging lifting guide rail frame 204, a discharging driving motor 205 and a discharging synchronous belt 206 driven by the discharging driving motor to work are fixedly arranged on the upper portion of the discharging lifting guide rail frame 204, the discharging lifting plate 202 is fixed on the discharging synchronous belt 206, a transition hopper 207 in a cone hopper shape is arranged above the lifting sleeve 201, and an electric control valve 208 can be arranged between the transition hopper 207 and the upper portion of the lifting sleeve 201, so that materials can be guided into the lifting sleeve 201 from the transition hopper 207, and when the discharging mechanism works, the discharging driving motor 205 starts to work to drive the discharging synchronous belt 206 to rotate and drive the discharging lifting plate 202 (guided by the lifting guide rail 203 to limit lifting and sliding) and the lifting sleeve 201 to lift; when the liftable sleeve 201 and the transition hopper 207 need to bear materials of a previous process, the liftable sleeve 201 and the transition hopper 207 ascend, after the liftable sleeve 201 bears the materials, the liftable sleeve 201 and the transition hopper 207 descend, the shaping mechanism A is driven by the moving cylinder mechanism 3 to move to the position right below the liftable sleeve 201, the electric control valve is opened, the materials in the transition hopper 207 are guided into a packaging bag in the shaping mechanism A through the liftable sleeve 201, and the packaging bag can be placed into the shaping mechanism A manually or by a manipulator before.

The moving cylinder mechanism 3 comprises a horizontal guide rail 301 arranged on the machine body and used for supporting the shaping mechanism A to move and a front-back moving cylinder 302 used for pulling the shaping mechanism to move horizontally.

The shaping mechanism A comprises a whole mechanism mounting plate A1 fixedly arranged on a machine body and two shaping supports A2 which are arranged on the shaping mechanism mounting plate and can move relatively, a moving guide rail A21 is arranged on the whole mechanism mounting plate A1, the lower parts of the shaping supports A2 are connected to the moving guide rail A21 in a sliding mode, a ball screw A22 is connected between the two groups of shaping supports A2 in a penetrating mode, a hand wheel A23 is arranged at the end part of the ball screw A22, two threads with opposite turning directions are arranged on the ball screw A22, when the hand wheel is rotated, the ball screw synchronously rotates, and therefore the two shaping supports A2 can move close to or away from each other relatively through the two threads with the opposite turning directions on the ball screw A22 (the formed mechanism is a screw nut mechanism), shaping of packaging bags K with different volumes is convenient to adjust, and the hand wheel is manually adjusted, namely, and subsequent shaping work is carried out after manual debugging before production.

The front shaping plate A3 and the rear shaping plate A4 are respectively arranged on the two shaping supports A2, the front shaping plate or the rear shaping plate is driven to move by a front shaping cylinder A5 and a rear shaping cylinder A5 which are arranged on the shaping supports, concretely, the back sides of the front shaping plate A3 and the rear shaping plate A4 are respectively provided with a shaping connecting seat A16, a rubber pad A17 is connected between the shaping connecting seat A16 and the front shaping plate or the rear shaping plate, the rubber pad A17 can be connected with the front shaping plate, the rear shaping plate and the shaping connecting seat A16 in a bonding mode, screws can be locked, and the like, a plurality of shaping plate guide shafts A18 are fixedly arranged on the back side of the shaping connecting seat A16, a plurality of sliding guide sleeves A19 which are in sliding fit with the shaping plate guide shafts A18 are arranged on the shaping support A2, through holes in the sliding guide sleeves A19 are in small clearance fit with the shaping plate guide shafts A18 to slide, the front shaping cylinder A5 and the rear shaping cylinder A5 are fixedly arranged on the shaping support A2, the front shaping cylinder A5 and the rear shaping cylinder A5, and the shaping cylinder A3 and the shaping plate can be driven to move along the axial direction of the shaping connecting seat A4.

For better plastic wrapping bag and the material in it, wherein fixed mounting has the vibrating motor A20 that acts on back plastic board on the plastic connecting seat on back plastic board A4, through this vibrating motor A20's effect to the material in this wrapping bag of vibration that can be better and it is favorable to compressing the plastic.

Shaping cylinder A6 (can be the biax cylinder) about the dorsal part of preceding shaping plate is fixed to be equipped with and to control shaping cylinder A6 (can be connected left shaping plate support and right shaping plate support respectively with fixing about left and right shaping cylinder free end, right shaping plate support A7 (including left shaping plate support and right shaping plate support), a left side, left side on the right side shaping plate support A7, the right side part is fixed respectively and is equipped with left shaping plate A8, right shaping plate A9, in operation, left and right shaping cylinder A6 work, can drive left shaping plate A8, the flexible action of right shaping plate A9, the realization is to left shaping plate A8, the wrapping bag between the right shaping plate A9 compresses tightly the reality.

A lifting guide rail mounting seat A10, a lifting guide rail A11 and an electric push rod A12 are mounted at the bottom of a mounting plate A1 of a complete machine mechanism, a lower shaping cylinder mounting seat A13 is mounted at the free end of the electric push rod, a lower shaping cylinder A15 is fixedly arranged on the lower shaping cylinder mounting seat, a lower shaping plate A14 is fixedly mounted at the free end of the lower shaping cylinder, the lifting guide rail A11 mounting seat is L-shaped, the fixed end of the electric push rod is mounted at the lower turning part of the L-shaped lifting guide rail mounting seat, the lifting guide rail A11 is arranged on the vertical part of the lifting guide rail mounting seat A10, the lower shaping cylinder mounting seat A13 is in sliding fit with the lifting guide rail A11, the lower shaping cylinder mounting seat A13 is turning-shaped, the lower shaping cylinder A15 is mounted at the upper transverse part of the lower shaping cylinder mounting seat, and the side part of the lower shaping cylinder is in sliding connection with the lifting guide rail; before production, the lower shaping cylinder mounting seat A13 can be pushed by the electric push rod to realize that the lower shaping cylinder A15 and the lower shaping plate A14 integrally move upwards or downwards, so that the debugging of packaging bags with different volumes is met, the electric push rod is fixed during production, and the lower shaping cylinder A15 drives the lower shaping plate A14 to lift, so that the packaging bags are compacted in the up-and-down direction.

The front shaping plate and the rear shaping plate are parallel to each other, the left shaping plate and the right shaping plate are parallel to each other, the front shaping plate and the rear shaping plate are perpendicular to the left shaping plate and the right shaping plate, and the lower shaping plate is perpendicular to the front shaping plate, the rear shaping plate, the left shaping plate and the right shaping plate.

The bag arranging and heat sealing mechanism B comprises a vertical lifting cylinder B1 fixedly arranged on the machine body and an upper shaping mechanism mounting plate B2 connected to the free end of the vertical lifting cylinder, and the upper shaping mechanism mounting plate B2 and parts fixed on the upper shaping mechanism mounting plate B2 can ascend or descend under the driving action of the vertical lifting cylinder B1.

The lower surface of the upper shaping mechanism mounting plate B2 is provided with an upper shaping cylinder B3, an upper shaping guide rod B4 and a crank B5, the middle part of the crank is rotatably hinged on the upper shaping cylinder, the upper shaping cylinder is a double-shaft cylinder, namely, two ends of the upper shaping cylinder are respectively provided with a first driving rod and a second driving rod which can stretch out and draw back, the first driving rod and the second driving rod can respectively push different parts, and the upper shaping guide rod B4 can horizontally slide relative to the upper shaping mechanism mounting plate B2 and a guide sleeve on the upper shaping mechanism mounting plate.

The free end of a first driving rod of the double-shaft cylinder is rotationally hinged with a first end of a crank B5 through a first connecting rod B6, the free end of a second driving rod B7 of the double-shaft cylinder is rotationally hinged with a second end of the crank through a second connecting rod B8, the free end of the first driving rod is also connected with a first end of a shaping guide rod B4, the second end of the upper shaping guide rod B4 is fixedly connected with a second upper shaping plate B10, a first upper shaping plate B9 opposite to the second upper shaping plate is connected to the free end of the second driving rod B7, a heat sealing plate B11 and a sealing clamp B12 are respectively arranged on the first upper shaping plate and the second upper shaping plate, when the double-shaft cylinder works, the first driving rod and the second driving rod can drive the upper shaping guide rod B4 and the second upper shaping plate B10 to move towards the left side, the first upper shaping plate B9 moves towards the right side, the upper shaping plate B9 and the second upper shaping plate B10 are relatively close to each other, therefore, a bag opening of the packaging bag can be clamped through the sealing clamp B12 (at the same time, a bag opening of the packaging bag can be clamped by a pressing mechanism, the heat sealing clamp mechanism, the bag can be better, and the bag opening of the heat sealing clamp mechanism can be formed by the heat sealing clamp B11, and the bag at the bag opening of the bag at the bag, and the bag at the same time, and the bag can be better sealing mechanism, and the bag opening of the bag.

Specifically, the crank is in a shuttle shape, the center of the crank B5 is rotatably hinged to the upper shaping cylinder B3, two free ends of the shuttle-shaped crank are a first end and a second end of the shuttle-shaped crank, two ends of the first connecting rod are respectively rotatably hinged to the first end of the crank and the free end of the first driving rod, two ends of the second connecting rod are respectively rotatably hinged to the second end of the crank and the free end of the second driving rod, and the upper shaping guide rod B4 can slide relative to the upper shaping mechanism mounting plate B2.

Furthermore, in order to better arrange the bag shape of the packaging bag, the bag arranging and heat sealing mechanism B is provided with a bag arranging mechanism B13, the bag arranging mechanism is provided with a groove-shaped shell B16 (the groove-shaped shell B16 can also perform lifting motion relative to the machine body), a plurality of relatively movable bag arranging rods B14 arranged in the groove-shaped shell and a vacuum tube B15 for sucking vacuum, the relatively movable bag arranging rods B14 can arrange the edges of the packaging bag, the specific structure is as follows, and the vacuum tube B15 can suck air in the packaging bag to realize vacuum packaging.

The groove-shaped shell B16 comprises three side plates B17 and a bottom plate B18, the three side plates B17 and the bottom plate B18 are enclosed into a U shape, two groups of transverse guide rails B19 and two groups of bag arranging moving transverse screws B20 are arranged between the two opposite side plates, two sections of threads with different rotation directions are arranged on the bag arranging moving transverse screws B20, two moving nut seats B21 are respectively arranged on each group of bag arranging moving transverse screws B20, and the two moving nut seats B21 are in threaded connection with the threads with different rotation directions on the moving transverse screws (the moving nut seats B21, the bag arranging moving transverse screws B20 and the like form a screw rod nut mechanism), namely when the bag arranging moving transverse screws B20 rotate, the two moving nut seats B21 on each group of bag arranging moving transverse screws B20 can move relatively close to or relatively far away from each other; the first end parts of the two bag tidying moving transverse screw rods B20 are provided with a first synchronous belt, the second end part of one bag tidying moving transverse screw rod B20 is provided with a second synchronous belt B27, and the second synchronous belt is connected with the output end of a motor B24, so that the two bag tidying moving transverse screw rods B20 can rotate at a constant speed when the motor works.

The movable nut seat B21 (or the bag tidying finger mounting plate B25 and the sliding block connected with the movable nut seat B) is matched with the transverse guide rail B19 to realize sliding connection, two bag tidying finger rods B22 and four bag tidying finger rods B23 (the finger rods are flat rod bodies) are respectively connected to the movable nut seat, the two bag tidying finger rods B22 and the four bag tidying finger rods B23 form a bag tidying rod B14, the two bag tidying finger rods and the four bag tidying finger rods are respectively driven to move by different groups of movable nut seats and movable transverse screws, the movable transverse screw driving the bag tidying finger rods to move is a first movable transverse screw, the movable transverse screw driving the bag tidying finger rods to move is a second movable transverse screw, and the thread pitch of the first movable transverse screw is larger than that of the second movable transverse screw; when the bag arranging finger rods are in motion, the space between the two driving bag arranging finger rods moves to avoid interference, and the motion tracks of the two driving bag arranging finger rods B22 and the four driving bag arranging finger rods can not interfere with each other when the bag arranging finger rods move.

A working method of a six-side vacuum forming mechanism of a packaging bag comprises the steps that in an initial state, a shaping mechanism A is located below a bag arranging and heat sealing mechanism B and a discharging mechanism 2, a front shaping plate, a rear shaping plate, a left shaping plate, a right shaping plate and a lower shaping plate are in a retracted state, after a sleeve of the discharging mechanism receives a command signal for preparing bag sleeving, the sleeve is driven by a cylinder component to ascend to an original point position to receive materials, a front moving cylinder and a rear moving cylinder drive the shaping mechanism to enable the shaping mechanism to be located right below the discharging mechanism, the discharging mechanism descends to place the received materials into the shaping mechanism, then the sleeve returns to the original point position to continue receiving the materials, the front shaping plate, the rear shaping plate, the left shaping plate and the right shaping plate of the shaping mechanism are closed at the same time, a vibration motor vibrates and shakes the materials in the packaging bag to be flat, the lower shaping plate stretches out of the materials in the packaging bag through a lower shaping cylinder, then the front moving cylinder drives the shaping mechanism to horizontally move to enable the shaping mechanism to be located right below the bag arranging mechanism, then the bag arranging mechanism descends, the bag arranging mechanism firstly, then the upper shaping plate and the second shaping plate are connected to perform a vacuum sealing action of a vacuum bag clamping and heat sealing mechanism, and the vacuum bag clamping mechanism to complete the sealing and heat sealing process of the packaging bag.

Furthermore, when the bag opening of the packaging bag is opened, the bag arranging mechanism descends, the vacuum tube and the bag arranging finger rods extend into the packaging bag, the bag arranging finger rods extend to the left side and the right side of the packaging bag, the two groups of transverse bag arranging moving screw rods are driven by the servo motor to move, the bag arranging finger rods are outwards unfolded, the bag arranging finger rods are inwards folded, the two side parts of the packaging bag opening are enabled to form an M shape, the bag opening of the whole bag is straightened, then the sealing clamp is tightly clamped, and the front heat sealing plate and the rear heat sealing plate are closed and heat-sealed.

Six vacuum forming mechanism of wrapping bag can realize carrying out six plastic packagings to rice wrapping bag, coarse cereals wrapping bag etc. and make six that the wrapping bag appears more level and smooth, and material packing is more abundant, has made things convenient for subsequent packing, has also improved the efficiency of packing.

It should be finally noted that the above examples are only intended to illustrate the technical solution of the present invention and not to limit it; although the present invention has been described in detail with reference to preferred embodiments, it should be understood by those skilled in the art that: the invention can be modified or equivalent substituted for some technical features; without departing from the spirit of the present invention, it should be understood that the scope of the claims is intended to cover all such modifications and variations.

Claims (7)

1. The utility model provides a mechanism that sleeve was unloaded and adjustable plastic which characterized in that: including the organism, establish shedding mechanism and plastic mechanism on the organism, shedding mechanism is including the liftable sleeve that is used for unloading, plastic mechanism is including fixed complete machine mechanism mounting panel of establishing on the organism and establishing two plastic supports that can relative motion on plastic mechanism mounting panel, installs preceding integer plate and back integer plate on two plastic supports respectively, preceding integer plate or back integer plate are by installing the front and back plastic cylinder drive removal on the plastic support, the dorsal part of preceding integer plate is fixed to be equipped with about plastic cylinder and fix about on the plastic cylinder free end about, around on the integer plate support respectively fixed be equipped with left integer plate, right integer plate, lift guide rail mount pad, lifting guide rail and electric putter who fix on the lift guide rail mount pad are installed to the bottom of complete machine mechanism mounting panel, install down plastic cylinder mount pad on electric putter's the free end, the fixed plastic cylinder that is equipped with down on the plastic cylinder mount pad down, fixed mounting has down integer plate on the free end of lower plastic cylinder.

2. The sleeve discharging and adjustable shaping mechanism according to claim 1, wherein: the lifting guide rail mounting seat is L-shaped, the fixed end of the electric push rod is mounted at the lower turning part of the L-shaped lifting guide rail mounting seat, the lifting guide rail is arranged on the vertical part of the lifting guide rail mounting seat, the lower shaping cylinder mounting seat is in sliding fit with the lifting guide rail, the lower shaping cylinder mounting seat is turning-shaped, the upper transverse part of the lower shaping cylinder mounting seat is provided with the lower shaping cylinder, and the side part of the lower shaping cylinder mounting seat is in sliding connection with the lifting guide rail.

3. The sleeve discharging and adjustable shaping mechanism according to claim 1 or 2, characterized in that: the shaping device is characterized in that shaping connecting seats are respectively arranged on the back sides of the front shaping plate and the rear shaping plate, a rubber pad is connected between each shaping connecting seat and the front shaping plate or the rear shaping plate, a plurality of shaping plate guide shafts are installed on the back sides of the shaping connecting seats, a plurality of sliding guide sleeves in sliding fit with the shaping plate guide shafts are installed on the shaping support, the front and rear shaping cylinders are fixedly installed on the shaping support, and the free ends of the front and rear shaping cylinders are connected with the shaping connecting seats.

4. The sleeve discharging and adjustable shaping mechanism according to claim 3, wherein: wherein, a vibration motor acting on the rear shaping plate is fixedly arranged on the shaping connecting seat on the rear shaping plate.

5. The sleeve discharging and adjustable shaping mechanism according to claim 1, 2 or 4, wherein: the front shaping plate and the rear shaping plate are parallel to each other, the left shaping plate and the right shaping plate are parallel to each other, the front shaping plate and the rear shaping plate are perpendicular to each other, and the lower shaping plate is perpendicular to the front shaping plate, the rear shaping plate, the left shaping plate and the right shaping plate.

6. The sleeve discharging and adjustable shaping mechanism according to claim 5, wherein: the whole mechanism mounting plate is provided with a movable guide rail, the lower parts of the shaping supports are connected to the movable guide rail in a sliding mode, a ball screw is connected between the two shaping supports in a penetrating mode, and the ball screw is provided with two sections of threads with opposite rotating directions, so that the two shaping supports can move close to or away from each other relatively when the ball screw rotates.

7. The sleeve unloading and adjustable shaping mechanism according to claim 1, wherein: liftable sleeve installs on the lifter plate of unloading, and the lifter plate of unloading is installed on the organism, the lifter plate sliding connection of unloading is on the riser guide of vertical setting, riser guide fixes on the riser guide frame of unloading, at the fixed synchronous belt of unloading that is equipped with the driving motor of unloading and works by the driving motor drive of unloading on riser guide frame upper portion, the lifter plate of unloading is fixed on the synchronous belt of unloading, and telescopic top of liftable has the transition fill that is the awl fill form, can be equipped with the automatically controlled valve between transition fill and the liftable sleeve upper portion to let the material can follow the leading-in liftable sleeve of transition fill.

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