CN118004496B - Packaging equipment is used in production of probiotic powder - Google Patents

Abstract

The invention discloses packaging equipment for producing probiotic powder, which belongs to the technical field of packaging equipment and comprises a case, a hopper, a back sealing mechanism, a driving wheel, a fluctuation ring mechanism, a torsion ring mechanism, a vibration ring mechanism, a sealing mechanism and a cutting mechanism. The invention effectively improves the packaging quality of the probiotic powder and prevents bad packaging from affecting the quality of probiotics.

Description

Packaging equipment is used in production of probiotic powder

Technical Field

The invention belongs to the technical field of packaging equipment, and particularly relates to packaging equipment for producing probiotic powder.

Background

Probiotics are a class of active microorganisms beneficial to a host by colonizing the human body and altering the flora composition of a part of the host. By regulating the immune function of host mucous membrane and system or regulating the balance of flora in intestinal tract, the effect of promoting nutrient absorption and maintaining intestinal health is achieved, so that single microorganism or mixed microorganism with definite composition beneficial to health is produced. Along with the improvement of the living standard of people, people pay more attention to the health of the body, and probiotics play an important role in improving the immunity of the human body, promoting digestion and absorption, maintaining the balance of intestinal flora and the like, so that the probiotic related preparation is more and more popular, and probiotic powder is the most common dosage form.

The most common package of the probiotic powder is a bag, and the probiotic powder is used once and is convenient to use and store. Because probiotics need to keep activity to be effective, strict requirements are placed on packaging and preservation, and sealing, moisture resistance, light shielding and cold storage are generally required. In the traditional powder packaging equipment, a planar packaging bag material is rolled into a barrel shape by the equipment, then the bottom of the barrel-shaped packaging material is sealed by a sealing mechanism, after powder is quantitatively input, the sealing mechanism seals the upper part of the sealing part of the bottom of the barrel-shaped packaging material at a certain distance again, finally, the independent bagged powder packaging can be formed by cutting by a cutting mechanism, and the equipment can repeat the steps to form continuous operation. However, traditional powder packaging equipment is input into packaging material from the eminence down when powder, and the powder can produce the raise dust when touching the bottom, and the powder that raises can adsorb on the inner wall of top packaging material, and equipment is quantitative at every time to throw the material, adsorbs on the inner wall of top packaging material can make the weight inequality of every bag packing influence the finished product quality, and if adsorb at needs sealed department exactly, can influence sealed effect more, serious can lead to sealed not tight for the packing runs powder, and to pack and preserve the strict probiotic powder of requirement, the packing is sealed not tightly and is caused the probiotic to lose efficacy very easily, causes the loss to the manufacturing enterprise.

There is therefore a need for a packaging device for probiotic powder production that solves the above mentioned problems.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides packaging equipment for producing probiotic powder, which utilizes different angle disturbance to packaging bags to ensure that the probiotic powder is difficult to adsorb on the inner wall of the packaging bags and effectively prevents the loss caused by loose sealing.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a probiotics powder production is with equipment for packing, includes quick-witted case, feed hopper, back of body seal mechanism, drive wheel, fluctuation ring mechanism, twist ring mechanism, vibrations ring mechanism, sealing mechanism and cutting mechanism, its characterized in that: the top of the front side of the case is fixedly connected with a feeding hopper, the upper part of the front side of the case is fixedly connected with a back sealing mechanism, the case below the back sealing mechanism is rotationally connected with a driving wheel, the case below the feeding hopper is fixedly connected with a fluctuation ring mechanism, the case below the fluctuation ring mechanism is fixedly connected with a torsion ring mechanism, the case below the torsion ring mechanism is fixedly connected with a vibration ring mechanism, the case below the vibration ring mechanism is fixedly connected with a sealing mechanism, and the case below the sealing mechanism is fixedly connected with a cutting mechanism;

A fluctuation ring capable of fluctuating up and down in the fluctuation ring mechanism is arranged in the fluctuation ring mechanism;

A torsion ring capable of twisting in the torsion ring mechanism is arranged in the torsion ring mechanism;

the vibrating ring mechanism is internally provided with a vibrating ring which can horizontally vibrate in the vibrating ring mechanism.

When the probiotic powder is packaged, the plane packaging material is rolled into a similar cylinder shape when passing through the hopper, the back sealing mechanism seals the back of the packaging material, so that the packaging material forms a cylinder shape, the driving wheel drives the packaging material to continuously move downwards, the cylinder packaging material passes through the wave ring, the torsion ring and the vibration ring, the sealing mechanism seals the bottom of the cylinder packaging material, the probiotic powder is quantitatively thrown into the cylinder packaging material through the hopper, the sealing mechanism seals the upper part of the sealing part of the bottom of the cylinder packaging material at a certain distance again, finally, the independent bagged powder package can be formed by cutting through the cutting mechanism, and the wave ring, the torsion ring and the vibration ring can disturb the cylinder packaging material at different angles, thereby effectively preventing the probiotic powder from being adsorbed on the inner wall of the upper part of the cylinder packaging material, and preventing the sealing from being not tight, and affecting the packaging effect.

Further, the feed hopper bottom fixedly connected with feed pipe, limit frame has been put to feed hopper and feed pipe top cover, the feed pipe is oval hollow tube for the cross section, the feed pipe cross section is the oval that the front side is wide, and the rear side is narrow, clearance between limit frame and the feed hopper is even, clearance between limit frame and the feed pipe is even, clearance between limit frame and the feed hopper allows wrapping bag material to pass through, clearance between limit frame and the feed pipe allows wrapping bag material to pass through.

The shape of the upper part of the limiting frame is attached to the shape of the feeding hopper, so that the gap between the limiting frame and the feeding hopper is uniform, the shape of the lower part of the limiting frame is attached to the shape of the feeding pipe, the gap between the limiting frame and the feeding pipe is uniform, and the plane packaging material can be inwards bent into a cylinder-like shape through the gap between the limiting frame and the feeding hopper and the gap between the limiting frame and the feeding pipe.

Further, the back sealing mechanism is arranged on the case at the rear side of the feeding pipe, and the driving wheels are symmetrically and rotatably connected to the case below the back sealing mechanism.

The opening of inwards buckling into class tube-shape packaging material rear side is through back seal mechanism, and back seal mechanism can seal opening part, and the feed pipe cross section is the oval that the front side is wide rear side is narrow for can form corresponding shape when plane packaging material buckles, make things convenient for the opening of class tube-shape packaging material rear side to pass through back seal mechanism, and the drive wheel not only can drive tube-shape packaging material and continue the downward movement, but make equipment continuous operation, can also compact the opening sealing part of class tube-shape packaging material rear side again simultaneously, guarantee sealed effect.

Further, the fluctuation ring mechanism comprises a first supporting frame and a fluctuation ring, the rear side of the first supporting frame is fixedly connected with the front side of the case, two sides of the first supporting frame are open, the top of the fluctuation ring is connected with the top of the first supporting frame through springs, the bottom of the fluctuation ring is connected with the bottom of the first supporting frame through springs, the springs are distributed at the top and the bottom of the fluctuation ring in a plurality of arrays, first deflector rods are fixedly arranged on two sides of the fluctuation ring, and through holes allowing packaging bag materials to pass through are formed in the top and the bottom of the first supporting frame.

The top and the bottom of the first supporting frame are provided with through holes for allowing packaging bag materials to pass through, the tubular packaging materials can pass through the fluctuation ring, the cross section of the fluctuation ring is elliptical with narrow sides and wide front and back, and the corresponding shape of the tubular packaging materials can be changed when the tubular packaging materials pass through the fluctuation ring, so that the subsequent feeding of the tubular packaging materials is facilitated.

Further, cams are symmetrically and rotationally connected to the chassis on two sides of the fluctuation ring mechanism, a second driving wheel is fixedly connected to a cam rotating shaft, a first driving wheel is fixedly connected to a driving wheel rotating shaft, the first driving wheel and the second driving wheel are connected through a driving chain, and the cams can stir the first shifting rod.

Because the both sides of first carriage are uncovered, undulant ring top is connected with first carriage top through the spring, and undulant ring bottom is connected with first carriage bottom through the spring, and the spring distributes at undulant ring top and bottom for a plurality of arrays, and undulant ring both sides are fixed to be provided with first driving lever for the cam rotates undulant first driving lever, and thereby when the cam toggled first driving lever, undulant ring both sides can fluctuate to the tubular packaging material that passes through the undulant ring disturbance, and the cam accessible drive wheel drives and rotates.

Further, the torsion ring mechanism comprises a second supporting frame and a torsion ring, the rear side of the second supporting frame is fixedly connected with the chassis, two sides of the second supporting frame are opened, the top and the bottom of the second supporting frame are opened, a plurality of springs are fixedly connected between the front side and the rear side of the torsion ring and the front side wall and the rear side wall of the second supporting frame at equal intervals, and a second deflector rod is fixedly arranged on one side of the torsion ring.

The top and the bottom of the second supporting frame are all open, so that the tubular packaging material can pass through the torsion ring, as the two sides of the second supporting frame are open, the front side and the rear side of the torsion ring are fixedly connected with springs at equal intervals, the other ends of the springs are fixedly connected with the front side wall and the rear side wall of the second supporting frame, and the second deflector rod is fixedly arranged on one side of the torsion ring, so that the torsion ring of the second deflector rod can be twisted, and then the tubular packaging material passing through is disturbed.

Further, cutting mechanism rear side and quick-witted case fixed connection, cutting mechanism is including removing cutter and fixed cutter, fixed cutter is fixed to be set up on cutting mechanism, fixed cutter both sides fixedly connected with guide bar, the guide bar runs through and removes the cutter, remove cutter and guide bar sliding connection, it sets up at fixed cutter rear side to remove the cutter, it has hydraulic ejector pin to remove cutter rear side fixedly connected with, remove cutter one side fixedly connected with poking bar, poking bar can poke the second poking bar.

Because fixed cutter is fixed to be set up on cutting mechanism, fixed cutter both sides fixedly connected with guide bar, the guide bar runs through the removal cutter, removal cutter and guide bar sliding connection, the removal cutter sets up in fixed cutter rear side, removal cutter rear side fixedly connected with hydraulic ram, removal cutter one side fixedly connected with poke rod, poke rod can wave the second poke rod for hydraulic ram drives the removal cutter and to the fixed cutter removal can accomplish the cutting to the packing, and can drive poke rod horizontal slip when the hydraulic ram drives the removal cutter, thereby stir the second poke rod.

Further, vibrations ring mechanism includes third braced frame and vibration ring, third braced frame rear side and quick-witted case fixed connection, third braced frame both sides are uncovered, third braced frame rear side is uncovered, vibrations ring top is connected with third braced frame top through the spring, vibrations ring bottom is through spring and third braced frame bottom fixed connection, the spring distributes at vibrations ring top and bottom for a plurality of arrays, fixed equidistance is provided with a plurality of springs between vibrations ring front side and the third braced frame front side wall, third braced frame top and bottom are provided with the through-hole that allows wrapping bag material to pass through.

The through holes allowing packaging bag materials to pass through are formed in the top and the bottom of the third supporting frame, the cylindrical packaging materials can pass through the vibrating ring, the bottom of the vibrating ring is fixedly connected with the bottom of the third supporting frame through springs, the springs are distributed at the top and the bottom of the vibrating ring in multiple arrays, multiple springs are fixedly equidistant between the front side of the vibrating ring and the front side wall of the third supporting frame, and the vibrating ring can vibrate the cylindrical packaging materials after the rear side of the vibrating ring is impacted.

Further, the vibration ring rear side is provided with ejection assembly, ejection assembly includes ejector plate and energy storage box, ejector plate sliding connection is in the energy storage box, energy storage box rear side and quick-witted case fixed connection, ejector plate both sides symmetry is fixedly provided with the elastic clamping board, elastic clamping board rear end is close to energy storage box lateral wall one side and is provided with the fixture block, fixedly connected with energy storage spring between ejector plate rear side and the energy storage box rear side wall, energy storage spring is a plurality of equidistance setting, the energy storage box both sides are provided with the draw-in groove, the draw-in groove is close to energy storage box rear side wall, the fixture block can be blocked in the draw-in groove, ejector plate front side is provided with the arc wall that adapts to vibration ring shape.

Because the ejector plate sliding connection is in the energy storage box, energy storage box rear side and quick-witted case fixed connection, ejector plate both sides symmetry is fixed and is provided with the elastic clamping plate, elastic clamping plate rear end is close to energy storage box lateral wall one side and is provided with the fixture block, fixedly connected with energy storage spring between ejector plate rear side and the energy storage box rear lateral wall, energy storage spring is a plurality of equidistance setting, energy storage box both sides are provided with the draw-in groove, the draw-in groove is close to energy storage box rear lateral wall, the fixture block can block in the draw-in groove for ejector plate both sides elastic clamping block when putting in the draw-in groove, energy storage spring stores the potential energy for ejector plate, ejector plate can launch forward when the fixture block breaks away from the draw-in groove and assaults the vibration ring.

Further, sealing mechanism rear side and quick-witted case fixed connection, sealing mechanism is including removing sealing plate, fixed sealing plate and electric putter, fixed sealing plate is fixed to be set up on sealing mechanism, fixed sealing plate both sides are fixed to be provided with the guide bar, the guide bar runs through and removes sealing plate, remove sealing plate and guide bar sliding connection, it sets up at fixed sealing plate front side to remove sealing plate, remove sealing plate front wall and electric putter one end fixed connection, remove sealing plate both sides front end fixedly connected with push rod, remove sealing plate both sides rear end fixedly connected with pull rod, the push rod can promote the ejector plate and slide in the energy storage box, the fixture block of draw-in groove is put to the push rod extrusion card.

The electric push rod can be fixed on the fixed cutting tool through the support frame, as the fixed sealing plate is fixedly arranged on the sealing mechanism, the guide rods are fixedly arranged on the two sides of the fixed sealing plate, the guide rods penetrate through the movable sealing plate, the movable sealing plate is in sliding connection with the guide rods, the movable sealing plate is arranged on the front side of the fixed sealing plate, the front side wall of the movable sealing plate is fixedly connected with one end of the electric push rod, the front ends of the two sides of the movable sealing plate are fixedly connected with the push rods, the pull rods are fixedly connected with pull rods, the push rods can slide in the front of the energy storage box, the pull rods can slide on the two sides of the energy storage box, the electric push rods can push the movable sealing plate to slide towards the fixed sealing plate, the push rods can be driven to slide horizontally backwards when the electric push rods push the movable sealing plate to slide horizontally in the energy storage box, the clamping blocks on the elastic clamping plates on the two sides of the ejection plate are clamped in the clamping grooves, the clamping blocks can be driven to slide horizontally forwards in the sliding process, the clamping blocks are extruded and clamped in the clamping grooves in the sliding process, and the clamping blocks are separated from the clamping grooves, so that the cylindrical packaging material is completely sealed, and the ejection rings are impacted and ejected and impacted.

The beneficial effects of the invention are as follows:

(1) When the probiotic powder is packaged, the planar packaging material is rolled into a similar cylinder shape when passing through the hopper, the back sealing mechanism seals the back of the packaging material, so that the packaging material forms a cylinder shape, the driving wheel drives the packaging material to continuously move downwards, the cylindrical packaging material passes through the wave ring, the torsion ring and the vibration ring, the sealing mechanism seals the bottom of the cylindrical packaging material, the probiotic powder is quantitatively put into the cylindrical packaging material through the hopper, the sealing mechanism seals the upper part of the sealing part of the bottom of the cylindrical packaging material at a certain distance again, finally, the independent bagged powder package can be formed by cutting by the cutting mechanism, and the wave ring, the torsion ring and the vibration ring can disturb the cylindrical packaging material at different angles, thereby effectively preventing the probiotic powder from being adsorbed on the inner wall of the upper part of the cylindrical packaging material, and preventing the sealing from being not tight and affecting the packaging effect;

(2) According to the invention, the cross section of the feeding pipe is an ellipse with wide front side and narrow rear side, so that the planar packaging material can form a corresponding shape when being bent, the opening at the rear side of the cylindrical packaging material is convenient to pass through the back sealing mechanism, the cross section of the fluctuation ring is an ellipse with narrow two sides and wide front and rear sides, the corresponding shape of the cylindrical packaging material can be changed when the cylindrical packaging material passes through the fluctuation ring, and the subsequent feeding of the cylindrical packaging material is convenient;

(3) The invention has the advantages that the disturbance to the cylindrical packaging material is larger as the bottom is closer to, and simultaneously, different mechanisms are utilized to generate different-direction disturbance to the cylindrical packaging material in an omnibearing manner, so that the adhesion of the probiotic powder on the inner wall of the cylindrical packaging material is effectively prevented, and the packaging quality is improved.

Drawings

FIG. 1 is a schematic diagram of a packaging apparatus for probiotic powder production according to the present invention;

FIG. 2 is a schematic diagram of the structure of a hopper of a packaging device for producing probiotic powder according to the present invention;

FIG. 3 is a schematic view of the structure of the hopper and back seal mechanism of a packaging apparatus for probiotic powder production in accordance with the present invention;

FIG. 4 is a schematic view of the wave ring mechanism and drive wheel of a packaging apparatus for probiotic powder production in accordance with the present invention;

FIG. 5 is a schematic view of the twist ring mechanism and cutting mechanism of a packaging apparatus for probiotic powder production of the present invention;

FIG. 6 is a schematic diagram of the vibrating ring mechanism and the sealing mechanism of the packaging device for producing the probiotic powder;

FIG. 7 is a schematic view of the ejection assembly and sealing mechanism of a packaging device for probiotic powder production of the present invention;

fig. 8 is a schematic structural view of a vibrating ring of a packaging device for producing probiotic powder according to the present invention.

Reference numerals: 1. a chassis; 2. a hopper; 3. a back sealing mechanism; 4. a driving wheel; 5. a wave ring mechanism; 6. a twist ring mechanism; 7. a vibrating ring mechanism; 8. a sealing mechanism; 9. a cutting mechanism; 21. a feed pipe; 22. a limit frame; 42. a cam; 43. a drive chain; 411. a first driving wheel; 421. a second driving wheel; 51. a wave ring; 52. a first support frame; 511. a first deflector rod; 61. a torsion ring; 62. a second support frame; 611. a second deflector rod; 71. an ejection assembly; 72. a vibrating ring; 73. a third support frame; 711. an ejector plate; 712. an energy storage box; 7111. an elastic clamping plate; 7112. a clamping block; 7121. an energy storage spring; 7122. a clamping groove; 81. moving the sealing plate; 82. fixing a sealing plate; 83. an electric push rod; 811. a push rod; 812. a pull rod; 91. moving the cutter; 92. fixing the cutter; 911. a toggle rod.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

In the description of the present invention, it should be noted that the positional or positional relationship indicated by the terms such as "upper", "lower", "inner", "outer", "top/bottom", etc. are based on the positional or positional relationship shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1-3, a packaging device for producing probiotic powder comprises a case 1, a hopper 2, a back sealing mechanism 3, a driving wheel 4, a fluctuation ring mechanism 5, a torsion ring mechanism 6, a vibration ring mechanism 7, a sealing mechanism 8 and a cutting mechanism 9, wherein the hopper 2 is fixedly connected to the top of the front side of the case 1, the back sealing mechanism 3 is fixedly connected to the upper part of the front side of the case 1, the driving wheel 4 is rotatably connected to the case 1 below the back sealing mechanism 3, the fluctuation ring mechanism 5 is fixedly connected to the case 1 below the hopper 2, the torsion ring mechanism 6 is fixedly connected to the case 1 below the fluctuation ring mechanism 5, the sealing mechanism 8 is fixedly connected to the case 1 below the vibration ring mechanism 7, and the cutting mechanism 9 is fixedly connected to the case 1 below the sealing mechanism 8;

a fluctuation ring 51 capable of fluctuating up and down in the fluctuation ring mechanism 5 is arranged in the fluctuation ring mechanism 5;

A torsion ring 61 which can twist in the torsion ring mechanism 6 is provided in the torsion ring mechanism 6;

the vibration ring mechanism 7 is internally provided with a vibration ring 72 which can horizontally vibrate in the vibration ring mechanism 7.

The bottom of the feeding hopper 2 is fixedly connected with a feeding pipe 21, the top of the feeding hopper 2 and the top of the feeding pipe 21 are sleeved with a limiting frame 22, the feeding pipe 21 is a hollow pipe with an oval cross section, the cross section of the feeding pipe 21 is an oval with a wide front side and a narrow rear side, gaps between the limiting frame 22 and the feeding hopper 2 are uniform, gaps between the limiting frame 22 and the feeding pipe 21 are uniform, gaps between the limiting frame 22 and the feeding hopper 2 allow packaging bag materials to pass through, and gaps between the limiting frame 22 and the feeding pipe 21 allow packaging bag materials to pass through.

The back sealing mechanism 3 is arranged on the case 1 at the rear side of the feeding pipe 21, and the driving wheels 4 are symmetrically and rotatably connected to the case 1 below the back sealing mechanism 3.

In this embodiment, the plane packaging material is bent inwards to be like a cylinder through the gap between the limit frame 22 and the hopper 2 and the gap between the limit frame 22 and the feeding pipe 21, the opening at the rear side of the cylindrical packaging material is bent inwards to be like a cylinder through the back sealing mechanism 3, the back sealing mechanism 3 can seal the opening, and the driving wheel 4 can drive the cylindrical packaging material to continuously move downwards, so that the device can continuously operate, and meanwhile, the sealing position of the opening at the rear side of the cylindrical packaging material can be compacted again, so that the sealing effect is ensured;

The tubular packaging material passes through the fluctuation ring 51, the torsion ring 61 and the vibration ring 72, then the sealing mechanism 8 seals the bottom of the tubular packaging material, probiotic powder is quantitatively put into the tubular packaging material through the hopper 2, the sealing mechanism 8 seals the upper part of the sealing part of the bottom of the tubular packaging material at a certain distance again, finally, the independent bagged powder package can be formed by cutting through the cutting mechanism 9, and the fluctuation ring 51, the torsion ring 61 and the vibration ring 72 can disturb the tubular packaging material at different angles, so that the probiotic powder is effectively prevented from being adsorbed on the inner wall of the upper part of the tubular packaging material, the sealing is not tight, and the packaging effect is not influenced.

Specifically, as shown in fig. 4, the fluctuation ring mechanism 5 includes a first supporting frame 52 and a fluctuation ring 51, the rear side of the first supporting frame 52 is fixedly connected with the front side of the casing 1, two sides of the first supporting frame 52 are open, the top of the fluctuation ring 51 is connected with the top of the first supporting frame 52 through springs, the bottom of the fluctuation ring 51 is connected with the bottom of the first supporting frame 52 through springs, the springs are distributed at the top and the bottom of the fluctuation ring 51 in multiple arrays, two sides of the fluctuation ring 51 are fixedly provided with first deflector rods 511, and the top and the bottom of the first supporting frame 52 are provided with through holes for allowing packaging bag materials to pass through.

The two sides of the rotary ring mechanism 5 are symmetrically and rotationally connected with cams 42, the rotating shaft of each cam 42 is fixedly connected with a second driving wheel 421, the rotating shaft of each driving wheel 4 is fixedly connected with a first driving wheel 411, the first driving wheels 411 and the second driving wheels 421 are connected through a driving chain 43, and the cams 42 can stir the first shifting levers 511.

In this embodiment, since the two sides of the first supporting frame 52 are open, the top of the fluctuation ring 51 is connected with the top of the first supporting frame 52 through a spring, the bottom of the fluctuation ring 51 is connected with the bottom of the first supporting frame 52 through a spring, the spring is distributed at the top and bottom of the fluctuation ring 51 in multiple arrays, the two sides of the fluctuation ring 51 are fixedly provided with a first deflector rod 511, the rotating shaft of the cam 42 is fixedly connected with a second driving wheel 421, the rotating shaft of the driving wheel 4 is fixedly connected with a first driving wheel 411, the first driving wheel 411 and the second driving wheel 421 are connected through a driving chain 43, so that the driving wheel 4 can rotate to drive the cam 42 to rotate, the cam 42 can rotate to stir the first deflector rod 511, and when the cam 42 stirs the first deflector rod 511, the two sides of the fluctuation ring 51 can fluctuate up and down to disturb the tubular packaging material passing through the fluctuation ring 51;

The cross section of the feeding pipe 21 is elliptical with wide front side and narrow rear side, so that a corresponding shape can be formed when the plane packaging material is bent, an opening at the rear side of the similar cylindrical packaging material conveniently passes through the back sealing mechanism 3, the cross section of the wave ring 51 is elliptical with narrow two sides and wide front and rear sides, the corresponding shape of the cylindrical packaging material can be changed when the cylindrical packaging material passes through the wave ring 51, and the subsequent feeding of the cylindrical packaging material is facilitated.

Specifically, as shown in fig. 5, the torsion ring mechanism 6 includes a second supporting frame 62 and a torsion ring 61, where the rear side of the second supporting frame 62 is fixedly connected with the chassis 1, two sides of the second supporting frame 62 are open, the top and bottom of the second supporting frame 62 are open, a plurality of springs are fixedly connected between the front side and the rear side of the torsion ring 61 and the front side wall and the rear side wall of the second supporting frame 62 at equal intervals, and a second deflector rod 611 is fixedly arranged on one side of the torsion ring 61.

Cutting mechanism 9 rear side and quick-witted case 1 fixed connection, cutting mechanism 9 includes movable cutter 91 and fixed cutter 92, fixed cutter 92 is fixed to be set up on cutting mechanism 9, fixed cutter 92 both sides fixedly connected with guide bar, the guide bar runs through movable cutter 91, movable cutter 91 and guide bar sliding connection, movable cutter 91 sets up at fixed cutter 92 rear side, movable cutter 91 rear side fixedly connected with hydraulic ram, movable cutter 91 one side fixedly connected with poking rod 911, poking rod 911 can poke second poking rod 611.

In this embodiment, since the fixed cutter 92 is fixedly disposed on the cutting mechanism 9, the two sides of the fixed cutter 92 are fixedly connected with the guide rods, the guide rods penetrate through the movable cutter 91, the movable cutter 91 is slidably connected with the guide rods, the movable cutter 91 is disposed at the rear side of the fixed cutter 92, the rear side of the movable cutter 91 is fixedly connected with the hydraulic ejector rod 911, the hydraulic ejector rod drives the movable cutter 91 to move towards the fixed cutter 92 to cut the package, the hydraulic ejector rod drives the movable cutter 91 to move and simultaneously drives the movable cutter 911 to slide horizontally, so as to stir the second stirring rod 611, two sides of the second supporting frame 62 are opened, a plurality of springs 611 are fixedly connected between the front side and the rear side of the torsion ring 61 and the front side and the rear side of the second supporting frame 62 at equal intervals, and the second stirring rod 611 is fixedly disposed at one side of the torsion ring 61, so that the torsion ring 61 can twist when the second stirring rod 611, and then perturb the passing tubular package material.

Specifically, as shown in fig. 6-8, the vibration ring mechanism 7 includes a third supporting frame 73 and a vibration ring 72, the rear side of the third supporting frame 73 is fixedly connected with the chassis 1, two sides of the third supporting frame 73 are open, the rear side of the third supporting frame 73 is open, the top of the vibration ring 72 is connected with the top of the third supporting frame 73 through springs, the bottom of the vibration ring 72 is fixedly connected with the bottom of the third supporting frame 73 through springs, the springs are distributed at the top and the bottom of the vibration ring 72 in multiple arrays, multiple springs are fixedly equidistantly arranged between the front side of the vibration ring 72 and the front side wall of the third supporting frame 73, and through holes for allowing packaging bag materials to pass through are formed in the top and the bottom of the third supporting frame 73.

The rear side of the shock ring 72 is provided with an ejection assembly 71, the ejection assembly 71 comprises an ejection plate 711 and an energy storage box 712, the ejection plate 711 is slidably connected in the energy storage box 712, the rear side of the energy storage box 712 is fixedly connected with a chassis 1, two sides of the ejection plate 711 are symmetrically and fixedly provided with elastic clamping plates 7111, one side, close to the side wall of the energy storage box 712, of the rear end of the elastic clamping plates 7111 is provided with clamping blocks 7112, an energy storage spring 7121 is fixedly connected between the rear side of the ejection plate 711 and the rear side wall of the energy storage box 712, the energy storage springs 7121 are equidistantly arranged, two sides of the energy storage box 712 are provided with clamping grooves 7122, the clamping grooves 7122 are close to the rear side wall of the energy storage box 712, the clamping blocks 7112 can be clamped in the clamping grooves 7122, and the front side of the ejection plate 711 is provided with arc grooves adapting to the shape of the shock ring 72.

The sealing mechanism 8 is fixedly connected with the chassis 1 at the rear side, the sealing mechanism 8 comprises a movable sealing plate 81, a fixed sealing plate 82 and an electric push rod 83, the fixed sealing plate 82 is fixedly arranged on the sealing mechanism 8, guide rods are fixedly arranged at two sides of the fixed sealing plate 82, the guide rods penetrate through the movable sealing plate 81, the movable sealing plate 81 is in sliding connection with the guide rods, the movable sealing plate 81 is arranged at the front side of the fixed sealing plate 82, the front side wall of the movable sealing plate 81 is fixedly connected with one end of the electric push rod 83, push rods 811 are fixedly connected with the front ends of two sides of the movable sealing plate 81, pull rods 812 are fixedly connected with pull rods 812, the push rods 811 can push ejection plates 711 to slide in the energy storage boxes 712, and the pull rods 812 can squeeze clamping blocks 7112 which are clamped in the clamping grooves 7122.

In the embodiment, the bottom of the vibration ring 72 is fixedly connected with the bottom of the third supporting frame 73 through springs, the springs are distributed at the top and the bottom of the vibration ring 72 in a plurality of arrays, a plurality of springs are fixedly and equidistantly arranged between the front side of the vibration ring 72 and the front side wall of the third supporting frame 73, an ejection assembly 71 is arranged at the rear side of the vibration ring 72, the ejection assembly 71 comprises an ejection plate 711 and an energy storage box 712, the ejection plate 711 is slidably connected in the energy storage box 712, elastic clamping plates 7111 are symmetrically and fixedly arranged at two sides of the ejection plate 711, a clamping block 7112 is arranged at one side of the rear end of the elastic clamping plate 7111 close to the side wall of the energy storage box 712, an energy storage spring 7121 is fixedly connected between the rear side of the ejection plate 711 and the rear side wall of the energy storage box 712, the energy storage springs 7121 are arranged at equal intervals, clamping grooves 7122 are formed in two sides of the energy storage box 712, the clamping grooves 7122 are close to the rear side wall of the energy storage box 712, and clamping blocks 7112 can be clamped in the clamping grooves 7122, so that potential energy is accumulated by the energy storage springs 7121 for the ejection plate 711 when clamping blocks 7112 on elastic clamping plates 7111 on two sides of the ejection plate 711 are clamped in the clamping grooves 7122, and when the clamping blocks 7112 are separated from the clamping grooves 7122, the ejection plate 711 can be ejected forwards to impact the vibration ring 72, and the rear side of the vibration ring 72 can vibrate through the cylindrical packaging material after being impacted;

Because the fixed sealing plate 82 is fixedly arranged on the sealing mechanism 8, guide rods are fixedly arranged on two sides of the fixed sealing plate 82, the guide rods penetrate through the movable sealing plate 81, the movable sealing plate 81 is in sliding connection with the guide rods, the movable sealing plate 81 is arranged on the front side of the fixed sealing plate 82, the front side wall of the movable sealing plate 81 is fixedly connected with one end of the electric push rod 83, push rods 811 are fixedly connected with the front ends of two sides of the movable sealing plate 81, pull rods 812 are fixedly connected with the rear ends of two sides of the movable sealing plate 81, the push rods 811 can slide on the front side of the energy storage box 712, the pull rods 812 can slide on two sides of the energy storage box 712, the electric push rod 83 can push the movable sealing plate 81 to the fixed sealing plate 82 to finish sealing of the cylindrical packaging materials, and when the electric push rod 83 pushes the movable sealing plate 81 to the fixed sealing plate 82, the push rods 811 can slide backwards horizontally, so that the ejection plate 711 can be pushed to slide backwards horizontally in the energy storage box 712, the clamping blocks 7112 on two sides of the ejection plate 7111 are clamped in the clamping grooves 7122, when the electric push rods 83 drive the movable sealing plate 81 to reset, the pull rods 812 can be driven to slide forwards horizontally, and the clamping blocks 7112 slide in the clamping grooves 7122 to be separated from the clamping grooves 7122, and the ejection plates 7112 can be triggered, and the impact the moving blocks can be triggered, and the moving rings 7112.

Working principle:

When the device works, the plane packaging material is bent inwards to be like a cylinder through a gap between the limit frame 22 and the hopper 2 and a gap between the limit frame 22 and the feeding pipe 21, an opening at the rear side of the cylindrical packaging material is bent inwards to be like a cylinder, the opening can be sealed through the back sealing mechanism 3, and the driving wheel 4 can drive the cylindrical packaging material to continuously move downwards;

The tubular packaging material passes through the oscillating ring 51, the twisting ring 61 and the vibrating ring 72, then the bottom of the tubular packaging material is sealed by the sealing mechanism 8, the probiotic powder is quantitatively put into the tubular packaging material through the hopper 2, the sealing mechanism 8 seals the upper part of the sealing part of the bottom of the tubular packaging material at a certain distance again, and finally the independent bagged powder package can be formed by cutting by the cutting mechanism 9;

When the tubular packaging material passes through the fluctuation ring 51, the driving wheel 4 rotates to drive the cam 42 to rotate, the cam 42 rotates to stir the first stirring rod 511, and when the cam 42 stirs the first stirring rod 511, the two sides of the fluctuation ring 51 can fluctuate up and down so as to disturb the tubular packaging material passing through the fluctuation ring 51;

When the cylindrical packaging material passes through the torsion ring 61, the hydraulic ejector rod drives the movable cutter 91 to move towards the fixed cutter 92 to finish cutting the packaging, and simultaneously drives the poking rod 911 to horizontally slide, so that the second poking rod 611 is poked, and when the second poking rod 611 is poked, the torsion ring 61 can twist, and then the passing cylindrical packaging material is disturbed;

When the cylindrical packaging material passes through the vibration ring 72, the electric push rod 83 pushes the movable sealing plate 81 to slide towards the fixed sealing plate 82 to finish sealing the cylindrical packaging material, and meanwhile, the push rod 811 can be driven to slide horizontally and backwards, so that the ejection plate 711 can be pushed to slide horizontally and backwards in the energy storage box 712, the clamping blocks 7112 on the elastic clamping plates 7111 on the two sides of the ejection plate 711 are clamped in the clamping grooves 7122, the energy storage spring 7121 stores potential energy for the ejection plate 711, and when the electric push rod 83 drives the movable sealing plate 81 to reset, the pull rod 812 can be driven to slide horizontally and forwards, the clamping blocks 7112 clamped in the clamping grooves 7122 are extruded in the sliding process, so that the clamping blocks 7112 are separated from the clamping grooves 7122, the ejection of the ejection plate 711 is triggered, the vibration ring 72 is impacted, and the vibration ring 72 vibrates the passing cylindrical packaging material after the rear side of the vibration ring 72 is impacted;

The machine case 1 is sequentially provided with the fluctuation ring 51, the torsion ring 61 and the vibration ring 72 from top to bottom, the disturbance of the vibration ring 72 to the tubular material is obviously larger than the disturbance of the torsion ring 61 to the tubular packaging material, the disturbance of the torsion ring 61 to the tubular packaging material is larger than the disturbance of the fluctuation ring 51 to the tubular packaging material, and the probiotic powder adsorbed on the inner wall of the upper packaging material through lifting during feeding is more near the bottom and less near the high position.

The foregoing description is only of the preferred embodiments of the present invention, and is not intended to limit the scope of the present invention.

Claims (5)

1. The utility model provides a probiotics powder production is with equipment for packing, includes quick-witted case (1), feed hopper (2), back of body seal mechanism (3), drive wheel (4), fluctuation ring mechanism (5), twist ring mechanism (6), vibrations ring mechanism (7), sealing mechanism (8) and cutting mechanism (9), its characterized in that, quick-witted case (1) front side top fixedly connected with feed hopper (2), quick-witted case (1) front side top fixedly connected with back of body seal mechanism (3), rotate on quick-witted case (1) below back of body seal mechanism (3) and be connected with drive wheel (4), fixedly connected with fluctuation ring mechanism (5) on quick-witted case (1) below feed hopper (2), fixedly connected with twist ring mechanism (6) on quick-witted case (1) below fluctuation ring mechanism (5), fixedly connected with vibrations ring mechanism (7) on quick-witted case (1) below vibration ring mechanism (7) sealing mechanism (8), cutting mechanism (9) are fixedly connected with on quick-witted case (1) below sealing mechanism (8).

The torsion ring mechanism (6) comprises a second supporting frame (62) and a torsion ring (61), the torsion ring (61) can be twisted in the torsion ring mechanism (6), the rear side of the second supporting frame (62) is fixedly connected with the chassis (1), two sides of the second supporting frame (62) are open, the top and the bottom of the second supporting frame (62) are both open, a plurality of springs are fixedly connected between the front side and the rear side of the torsion ring (61) and the front side wall and the rear side wall of the second supporting frame (62) at equal intervals, and a second deflector rod (611) is fixedly arranged on one side of the torsion ring (61);

The vibrating ring mechanism (7) comprises a third supporting frame (73) and a vibrating ring (72), the vibrating ring (72) can vibrate horizontally in the vibrating ring mechanism (7), the rear side of the third supporting frame (73) is fixedly connected with the chassis (1), two sides of the third supporting frame (73) are open, the rear side of the third supporting frame (73) is open, the top of the vibrating ring (72) is connected with the top of the third supporting frame (73) through a spring, the bottom of the vibrating ring (72) is fixedly connected with the bottom of the third supporting frame (73) through a spring, the springs are distributed at the top and the bottom of the vibrating ring (72) in a plurality of arrays, a plurality of springs are fixedly arranged between the front side of the vibrating ring (72) and the front side wall of the third supporting frame (73) at equal intervals, and through holes allowing packaging bag materials to pass through are formed in the top and the bottom of the third supporting frame (73).

The vibration ring (72) is provided with an ejection assembly (71) at the rear side, the ejection assembly (71) comprises an ejection plate (711) and an energy storage box (712), the ejection plate (711) is slidably connected in the energy storage box (712), the rear side of the energy storage box (712) is fixedly connected with a chassis (1), two sides of the ejection plate (711) are symmetrically and fixedly provided with elastic clamping plates (7111), one side, close to the side wall of the energy storage box (712), of the rear end of the elastic clamping plates (7111) is provided with clamping blocks (7112), an energy storage spring (7121) is fixedly connected between the rear side of the ejection plate (711) and the rear side wall of the energy storage box (712), the energy storage springs (7121) are arranged at equal intervals, clamping grooves (7122) are formed in two sides of the energy storage box (712), the clamping blocks (7122) are close to the rear side wall of the energy storage box (712), the clamping blocks (7112) can be clamped in the clamping grooves (7122), and the front side of the ejection plate (711) is provided with an arc-shaped adaptation groove of the vibration ring (72);

The sealing mechanism (8) is fixedly connected with the chassis (1), the sealing mechanism (8) comprises a movable sealing plate (81), a fixed sealing plate (82) and an electric push rod (83), the fixed sealing plate (82) is fixedly arranged on the sealing mechanism (8), guide rods are fixedly arranged on two sides of the fixed sealing plate (82), the guide rods penetrate through the movable sealing plate (81), the movable sealing plate (81) is in sliding connection with the guide rods, the movable sealing plate (81) is arranged on the front side of the fixed sealing plate (82), the front side wall of the movable sealing plate (81) is fixedly connected with one end of the electric push rod (83), push rods (811) are fixedly connected to the front ends of two sides of the movable sealing plate (81), pull rods (812) are fixedly connected to the rear ends of two sides of the movable sealing plate (81), the push rods (811) can push ejection plates (711) to slide in the energy storage boxes (711), and the pull rods (812) can squeeze clamping blocks (7112) clamped in the clamping grooves (7122);

The fluctuation ring mechanism (5) comprises a first supporting frame (52) and a fluctuation ring (51), the fluctuation ring (51) can fluctuate in the fluctuation ring mechanism (5), the rear side of the first supporting frame (52) is fixedly connected with the front side of the case (1), two sides of the first supporting frame (52) are open, the top of the fluctuation ring (51) is connected with the top of the first supporting frame (52) through springs, the bottom of the fluctuation ring (51) is connected with the bottom of the first supporting frame (52) through springs, the springs are distributed at the top and the bottom of the fluctuation ring (51) in a plurality of arrays, first deflector rods (511) are fixedly arranged on two sides of the fluctuation ring (51), and through holes allowing packaging bag materials to pass through are formed in the top and the bottom of the first supporting frame (52).

2. The packaging device for producing probiotic powder according to claim 1, wherein the bottom of the feeding hopper (2) is fixedly connected with a feeding pipe (21), a limiting frame (22) is sleeved at the tops of the feeding hopper (2) and the feeding pipe (21), the feeding pipe (21) is a hollow pipe with an elliptical cross section, the cross section of the feeding pipe (21) is an ellipse with a wide front side and a narrow rear side, gaps between the limiting frame (22) and the feeding hopper (2) are uniform, gaps between the limiting frame (22) and the feeding pipe (21) are uniform, the gaps between the limiting frame (22) and the feeding hopper (2) allow packaging bag materials to pass through, and the gaps between the limiting frame (22) and the feeding pipe (21) allow packaging bag materials to pass through.

3. The packaging device for producing the probiotic powder according to claim 2, wherein the back sealing mechanism (3) is arranged on a rear chassis (1) of the feeding pipe (21), and the driving wheels (4) are symmetrically connected to the chassis (1) below the back sealing mechanism (3) in a rotating manner.

4. The packaging device for producing the probiotic powder according to claim 1, wherein cams (42) are symmetrically and rotationally connected to the chassis (1) on two sides of the fluctuation ring mechanism (5), a second driving wheel (421) is fixedly connected to a rotating shaft of the cams (42), a first driving wheel (411) is fixedly connected to a rotating shaft of the driving wheel (4), the first driving wheel (411) and the second driving wheel (421) are connected through a driving chain (43), and the cams (42) can stir the first deflector rod (511).

5. The packaging device for producing probiotic powder according to claim 1, wherein the rear side of the cutting mechanism (9) is fixedly connected with the chassis (1), the cutting mechanism (9) comprises a movable cutter (91) and a fixed cutter (92), the fixed cutter (92) is fixedly arranged on the cutting mechanism (9), guide rods are fixedly connected to two sides of the fixed cutter (92), the guide rods penetrate through the movable cutter (91), the movable cutter (91) is slidably connected with the guide rods, the movable cutter (91) is arranged at the rear side of the fixed cutter (92), a hydraulic ejector rod is fixedly connected to the rear side of the movable cutter (91), a poking rod (911) is fixedly connected to one side of the movable cutter (91), and the poking rod (911) can poke the second poking rod (611).