CN113893750A - Water-resistant live bacteria blasting bead production equipment - Google Patents

Abstract

The invention discloses a production device of a water-resistant live bacteria blasting bead, which structurally comprises a support frame, a conduction plate, a mixing device and a discharge port, wherein the conduction plate is welded at the middle end in the support frame, the mixing device is fixedly arranged at the top of the support frame, a stirring sheet is used for mixing and stirring raw materials, a hook plate is used for limiting the raw materials, the stirring time of the raw materials is prolonged, an elastic band generates elasticity to eject the raw materials, a choke block on the inner wall of a stirring cylinder is used for choking the raw materials on the outer side in the stirring rotation process, a telescopic rod stretches up and down, a hammer swing sheet swings up and down irregularly, the raw materials are prevented from sinking, raw material particles are soaked in calcium liquid, the outer side of the lower end of a lifting leakage plate is attached to the inner wall of a liquid storage hopper to slide, the blasting bead can be quickly fished up, the contact time of each particle with the calcium liquid is ensured to be the same, and the uniformity of the wall thickness of the shell of each blasting bead is realized, the water on the surface of the explosion bead is removed by rolling layer by layer, so that the explosion bead can be stably stored.

Description

Water-resistant live bacteria blasting bead production equipment

Technical Field

The invention relates to the field of food processing, in particular to a production device of a water-resistant live bacteria popping bead.

Background

The product type of the popping beads is not strictly unified concept or definition, generally refers to a liquid core which is wrapped by a layer of gel shell outside and is inside, and the product type of the popping beads is roughly two types, namely a soft capsule which is prepared by using a thermal gel colloid such as gelatin and the like, and two production processes of a compression method and a dropping method; the other is aqueous phase gel particles prepared by using ionic gel such as sodium alginate and the like, generally only a dropping method technical route is adopted, namely, substances containing colloids such as sodium alginate and the like are dropped into a calcium solution, the soaking time is controlled, the particles are quickly fished up, only the surfaces of the particles finish the gel process, and the inner parts of the particles are still in a liquid state, so that an explosion bead product is generated, the solid shell of the soft capsule is colloid such as gelatin and the like which can be thermally gelled, and the solid shell is dissolved when being placed into liquid with water, so that the soft capsule can only be applied to products such as solid particles, hard capsules and the like; the water-phase gel particles are formed by dripping in a water phase, are insoluble in water and can be added into high-moisture products such as yoghourt;

however, because the material liquid in the gelling process belongs to a complete mixing flow type, the gelling time is controlled, the particles are timely fished up, but the soaking time of each particle is different, so that the thickness of the outer shell of each exploded bead is different, the taste of the product, the influence of live bacteria and the like are different, the freeze-drying effect of the particles is not high, the activity is influenced, and due to the stability problem, the live bacteria exploded beads do not form a mature and feasible product form in the market.

Disclosure of Invention

The technical scheme adopted by the invention for realizing the technical purpose is as follows: this production facility that pearl is exploded to water-fast fungus, its structure includes support frame, conduction board, compounding device, discharge gate, the inside middle-end welding of support frame has the conduction board to compounding device fixed mounting is at the support frame top, the conduction board is located compounding device below, the discharge gate welding is at the conduction board right-hand member, the compounding device includes motor, inlet pipe, rabbling mechanism, shaping structure, the motor is installed at the rabbling mechanism up end to the inlet pipe inlays to be fixed and installs at the rabbling mechanism top and link up mutually, rabbling mechanism lower extreme fixed mounting has the shaping structure to rabbling mechanism bottom fixed mounting is at the support frame top, the shaping structure is located the conduction board top, the compounding device is equipped with threely altogether, and the equidistance distributes in the support frame upper end, three compounding device synchronous working.

As a further improvement of the invention, the stirring mechanism comprises a top cover, a stirring barrel, flow choking blocks and a stirrer, wherein the motor is arranged on the upper end surface of the top cover, the feeding pipe is fixedly embedded in the top of the top cover and communicated with the top cover, the top cover is arranged on the top of the stirring barrel, the flow choking blocks are welded on the inner wall of the stirring barrel, the stirrer is arranged at the middle end in the stirring barrel, the upper end of the stirrer synchronously rotates along with the output end of the motor, the lower end of the stirring barrel is provided with a forming structure and communicated with the lower end of the stirring barrel, the flow choking blocks are in a cambered surface block structure, eight flow choking blocks are arranged, and two flow choking blocks are in one group and are respectively arranged on four directions of the inner wall of the stirring barrel.

As a further improvement of the invention, the stirrer comprises a rotating rod, stirring blades, a hook plate, falling ports, elastic belts and a hammering mechanism, wherein the upper end of the rotating rod synchronously rotates along with the output end of the motor, the outer side of the rotating rod is welded with the inner side of the upper end of the stirring blades, the hook plate is welded on the upper end surface of the outer side of the stirring blades, the falling ports penetrate through the hook plate, the elastic belts are installed on the outer side of the stirring blades, the hammering mechanism is installed at the lower end of the rotating rod, the stirring blades are provided with eight stirring blades in total, the stirring blades are in a group, the stirring blades in each group are respectively welded at four positions on the outer side of the rotating rod, and three elastic belts are arranged in the space between every two stirring blades.

As a further improvement of the invention, the hammering mechanism comprises a spring pipe sleeve, a telescopic rod, a linkage rod group and a hammer piece, wherein the spring pipe sleeve is arranged at the lower end of the rotating rod, the telescopic rod is arranged in the spring pipe sleeve in a clearance fit manner, the outer side of the lower end of the spring pipe sleeve is welded with the upper end of the linkage rod group, the lower end of the linkage rod group is welded on the inner end surface of the hammer piece, and the two spring pipe sleeves are respectively connected with the upper end and the lower end of the telescopic rod.

As a further improvement of the invention, the forming structure comprises a material guide disc, a soaking mechanism and a lower row mechanism, wherein the material guide disc is arranged at the lower end of the mixing drum and is communicated with the mixing drum, the soaking mechanism is arranged at the middle end inside the material guide disc, the lower row mechanism is fixedly embedded at the lower end of the material guide disc and is communicated with the material guide disc, the soaking mechanism is positioned above the lower row mechanism, the material guide disc is of a hollow disc-shaped structure, and the four lower row mechanisms are distributed at four positions at the bottom of the material guide disc.

As a further improvement of the invention, the soaking mechanism comprises a liquid storage hopper, an air cylinder, a lifting bushing plate and a telescopic plate, wherein the liquid storage hopper is fixedly arranged at the middle end in the material guide plate, the output end of the air cylinder is welded with the middle part of the upper end of the lifting bushing plate, the telescopic plate is arranged at the middle end of the lifting bushing plate in a clearance fit manner, the lower end of the lifting bushing plate is abutted against the inner wall of the liquid storage hopper, the lifting bushing plate is in a sharp-angle structure, and two sides of the lifting bushing plate are inclined planes with the middle end higher and the outer end lower.

As a further improvement of the invention, the lower row mechanism comprises a lower guide pipe, a feed inlet, a torsion shaft and a guide plate, wherein the feed inlet is embedded in the upper end of the lower guide pipe, the upper end of the lower guide pipe is embedded and fixedly installed at the lower end of the material guide plate, the feed inlet is positioned below the scraping blade, the inner part of the lower guide pipe is hinged with the outer end of the guide plate through the torsion shaft, the torsion shaft and the guide plate are respectively provided with six, three are in a group and are respectively arranged at the left end and the right end in the lower guide pipe, and the upper end of the guide plate is provided with an arc-shaped groove.

The invention has the beneficial effects that:

1. the stirring piece mixes the stirring to the raw materials, carries on spacingly to it through colluding the board, improves the churning time of raw materials, and the elastic webbing produces elasticity and launches the raw materials, and the choked flow piece on the churn inner wall carries out the choked flow to the raw materials in the rotatory in-process outside of stirring simultaneously, and the telescopic link of lower extreme is flexible from top to bottom simultaneously for the hammer pendulum piece carries out anomalous horizontal hunting from top to bottom, avoids the raw materials to take place to sink the end, thereby improves the mixed effect between the whole raw materials.

2. The inside calcium liquid that has deposited of liquid storage fill, raw material particles soak inside calcium liquid, promote the lift bushing through the cylinder and shift up, the laminating of lift bushing lower extreme outside liquid storage fill inner wall slides, ensure to explode the whole quick scoops up of pearl, guarantee that every granule is the same with the time of calcium liquid contact, realize every and explode the homogeneity of pearl shell wall thickness, roll and fall to explode the moisture on pearl surface and get rid of layer by layer, make it can store steadily, the stability problem of the pearl raw materials is exploded to the viable bacteria has been solved.

Drawings

FIG. 1 is a schematic structural diagram of a production apparatus for a water-resistant live bacteria blasting bead of the present invention.

Fig. 2 is a schematic structural diagram of a mixing device according to the present invention.

Fig. 3 is a schematic diagram of the internal structure of a stirring mechanism according to the present invention.

FIG. 4 is a schematic top view of a blender according to the present invention.

Fig. 5 is a schematic view of the internal structure of a hammering mechanism of the present invention.

FIG. 6 is a schematic top view of an inner structure of a molding structure according to the present invention.

FIG. 7 is a schematic view of the internal structure of an immersing mechanism according to the present invention.

Fig. 8 is a schematic view of the internal structure of a lower row mechanism according to the present invention.

In the figure: a support frame-1, a conduction plate-2, a mixing device-3, a discharge port-4, a motor-31, a feed pipe-32, a stirring mechanism-33, a forming structure-34, a top cover-331, a stirring cylinder-332, a choke block-333, a stirrer-334, a rotating rod-34 a, a stirring sheet-34 b, a hook plate-34 c, a falling port-34 d, an elastic band-34 e, a beating mechanism-34 f, a spring pipe sleeve-f 1, a telescopic rod-f 2, a linkage rod group-f 3, a hammer pendulum sheet-f 4, a material guide plate-341, a soaking mechanism-342, a lower discharging mechanism-343, a liquid storage hopper-42 a, a cylinder-42 b, a lifting leakage plate-42 c, a telescopic plate-42 d, a lower guide pipe-43 a, a feed port-43 b, a material inlet-43 b, a stirring mechanism-33, a forming structure-34, a top cover-331, a spring pipe sleeve-f 1, a telescopic rod group-f-2, a connecting rod groups, a connecting rods, connecting rods, connecting rods, Torsion shaft-43 c, guide plate-43 d.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 5:

the invention relates to a production device of a water-resistant live bacteria blasting bead, which structurally comprises a support frame 1, a conducting plate 2, a mixing device 3 and a discharge port 4, wherein the conducting plate 2 is welded at the middle end inside the support frame 1, the mixing device 3 is fixedly arranged at the top of the support frame 1, the conducting plate 2 is positioned below the mixing device 3, the discharge port 4 is welded at the right end of the conducting plate 2, the mixing device 3 comprises a motor 31, a feed pipe 32, a stirring mechanism 33 and a forming structure 34, the motor 31 is arranged on the upper end surface of the stirring mechanism 33, the feed pipe 32 is fixedly embedded and arranged at the top of the stirring mechanism 33 and communicated with the stirring mechanism, the lower end of the stirring mechanism 33 is fixedly provided with the forming structure 34, the bottom of the stirring mechanism 33 is fixedly arranged at the top of the support frame 1, the forming structure 34 is positioned above the conducting plate 2, the mixing device 3 is provided with three mixing devices, and is distributed at the upper end of the support frame 1 at equal intervals, the three mixing devices 3 work synchronously, and the production speed of the blasting and blasting beads is improved.

Wherein, the stirring mechanism 33 comprises a top cover 331, a stirring barrel 332, a flow blocking block 333 and a stirrer 334, the motor 31 is arranged on the upper end surface of the top cover 331, and the feed pipe 32 is embedded and installed on the top of the top cover 331 and is communicated with the top cover 331, the top cover 331 is installed on the top of the mixing drum 332, a choke block 333 is welded on the inner wall of the mixing drum 332, the stirrer 334 is arranged at the middle end inside the mixing drum 332, and the upper end of the stirrer 334 synchronously rotates with the output end of the motor 31, the lower end of the stirring cylinder 332 is provided with the molding structure 34 and communicated with the molding structure, the flow blocking blocks 333 are of arc-shaped block structures, eight in total, two are in a group and are respectively arranged on four directions of the inner wall of the stirring cylinder 332, so that the flow blocking of the raw materials in the stirring process is facilitated, meanwhile, raw materials are prevented from being bonded on the inner wall of the stirring cylinder 332, the contact time of the raw materials and the stirrer 334 is prolonged, and the mixing effect of the raw materials is improved.

Wherein, agitator 334 includes dwang 34a, stirring piece 34b, colludes board 34c, whereabouts mouth 34d, elastic band 34e, beats mechanism 34f, dwang 34a upper end rotates along with the motor 31 output is synchronous to dwang 34a outside and stirring piece 34b upper end inboard are welded mutually, stirring piece 34b outside up end welding has colludes board 34c, and colludes board 34c inside and run through and have whereabouts mouth 34d, elastic band 34e installs in the stirring piece 34b outside, the mechanism 34f of beating is installed to dwang 34a lower extreme, stirring piece 34b is equipped with eight altogether to four are a set of, and stirring piece 34b of every group welds respectively in four azimuths in the dwang 34a outside, is equipped with three elastic band 34e in the interval between every stirring piece 34b, improves the elastic mixing to the raw materials, does benefit to the raw materials intensive mixing.

The hammering mechanism 34f comprises a spring pipe sleeve f1, a telescopic rod f2, a linkage rod group f3 and a pendulum piece f4, the spring pipe sleeve f1 is installed at the lower end of the rotating rod 34a, the telescopic rod f2 is installed inside the spring pipe sleeve f1 in a clearance fit mode, the outer side of the lower end of the spring pipe sleeve f1 is welded with the upper end of the linkage rod group f3, the lower end of the linkage rod group f3 is welded on the end face of the inner side of the pendulum piece f4, the number of the spring pipe sleeves f1 is two, and the two spring pipe sleeves f1 are respectively connected with the upper end and the lower end of the telescopic rod f2, so that the telescopic rod f2 extends and retracts up and down, the pendulum piece f4 is driven to hammer raw materials at the bottom, and the raw materials are prevented from sinking.

The specific use mode and function of the embodiment are as follows:

in the invention, raw materials are put into a stirring cylinder 332 from a feeding pipe 32, then a motor 31 is started, a rotating rod 34a is driven to rotate by the motor 31, then a stirring sheet 34b mixes and stirs the raw materials, the raw materials slide down on the stirring sheet 34b and are limited by a hook plate 34c, the raw materials slowly flow out from a falling port 34d, the stirring time of the raw materials is prolonged, an elastic belt 34e generates elasticity during stirring, so that the raw materials are ejected, a flow blocking block 333 on the inner wall of the stirring cylinder 332 blocks the flow of the raw materials on the outer side during stirring rotation, the contact time of the raw materials on the outer side and the stirring sheet 34b is prolonged while the raw materials are prevented from being bonded on the inner wall of the stirring cylinder 332, a telescopic rod f2 at the lower end stretches up and down in a spring pipe sleeve f1 while the rotating rod 34a rotates, and the linkage action of a linkage rod group f3 is utilized, therefore, the hammer swing piece f4 can swing up and down and left and right irregularly to beat the raw materials at the bottom, so that the raw materials are prevented from sinking to the bottom, and the mixing effect of the whole raw materials is improved.

Example 2:

as shown in fig. 6 to 8:

the forming structure 34 includes a material guiding disc 341, a soaking mechanism 342, and a lower row mechanism 343, the material guiding disc 341 is installed at the lower end of the mixing drum 332 and is communicated with the mixing drum, the soaking mechanism 342 is installed at the middle end inside the material guiding disc 341, the lower row mechanism 343 is installed at the lower end of the material guiding disc 341 and is communicated with the material guiding disc, the soaking mechanism 342 is located above the lower row mechanism 343, the material guiding disc 341 is in a hollow disc-shaped structure, and the four lower row mechanisms 343 are arranged at four positions at the bottom of the material guiding disc 341 and are distributed at the four positions at the bottom of the material guiding disc 341, so that the dispersing and discharging of the soaked and formed blasting beads are improved.

Wherein, soaking mechanism 342 includes liquid storage bucket 42a, cylinder 42b, lift bushing 42c, expansion plate 42d, liquid storage bucket 42a fixed mounting is in the inside middle-end of baffle 341 to cylinder 42b output and lift bushing 42c upper end middle part are welded mutually, expansion plate 42d adopts clearance fit to install in lift bushing 42c middle-end, lift bushing 42c lower extreme and liquid storage bucket 42a inner wall are inconsistent, lift bushing 42c is closed angle type structure to both sides are the high outside end low inclined plane of middle-end, do benefit to hold up the blasting pearl and then discharge the blasting pearl to the outside, drag for the blasting pearl fast, make only the particle surface accomplish ionic gel, and inside keeps the liquid state, guarantees simultaneously that the time of every granule and calcium liquid contact is all the same, realizes the homogeneity of the wall thickness of every blasting pearl shell.

Wherein, the lower row mechanism 343 comprises a lower conduit 43a, a feed inlet 43b, a torsion shaft 43c, and a guide plate 43d, the feed inlet 43b is embedded in the upper end of the lower conduit 43a, the upper end of the lower conduit 43a is embedded and fixed in the lower end of the material guide plate 341, the feed inlet 43b is located below the scraper 42e, the inner portion of the lower conduit 43a is hinged with the outer end of the guide plate 43d through the torsion shaft 43c, the torsion shaft 43c and the guide plate 43d are six and three are set as one set and respectively arranged at the left and right ends of the inner portion of the lower conduit 43a, and the upper end of the guide plate 43d is provided with an arc-shaped groove, so as to facilitate the guide plate 43d to guide the raw material downwards, simultaneously make the outer portion of the raw material contact with the arc-shaped groove at the upper end of the guide plate 43d, so as to facilitate the outer surface of the exploded bead to be more round when the exploded bead is discharged, and roll layer by layer, the water on the surface of the explosion bead is removed, so that the explosion bead can be stably stored, and the problem of stability of the raw material of the explosion bead for live bacteria is solved.

The specific use mode and function of the embodiment are as follows:

in the invention, the stirred raw material drops into a liquid storage hopper 42a, calcium liquid is stored in the liquid storage hopper 42a, raw material particles are soaked in the calcium liquid, only the outer surface of the particles finishes the gelling process, the inner parts of the particles are still liquid, thus an explosion bead product is generated, after the explosion beads are formed, a lifting bushing 42c is pushed by a cylinder 42b to move upwards, at the moment, a telescopic plate 42d is lifted in the middle end of the lifting bushing 42c, so that the outer side of the lower end of the lifting bushing 42c is attached to the inner wall of the liquid storage hopper 42a to slide, all explosion beads can be fished up quickly, the contact time of each particle and the calcium liquid is ensured to be the same, the uniformity of the wall thickness of the shell of each explosion bead is realized, the fished explosion bead particles are dispersed to enter four lower guide pipes 43a, the raw material is guided downwards layer by six guide plates 43d at the left end and the right end, simultaneously through the arc recess of deflector 43d upper end for the raw materials rolls the in-process external surface more mellow and more, and the in-process that rolls layer by layer simultaneously rolls down will explode the moisture on pearl surface and get rid of, makes it can store steadily, has solved the stability problem that the pearl raw materials were exploded to the viable bacteria.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (7)

1. The utility model provides a production facility that pearl is exploded to water-fast fungus, its structure includes support frame (1), conduction board (2), compounding device (3), discharge gate (4), the inside middle-end welding of support frame (1) has conduction board (2) to compounding device (3) fixed mounting is at support frame (1) top, conduction board (2) are located compounding device (3) below, discharge gate (4) welding is at conduction board (2) right-hand member, its characterized in that:

compounding device (3) include motor (31), inlet pipe (32), rabbling mechanism (33), shaping structure (34), install at rabbling mechanism (33) up end motor (31) to inlet pipe (32) are embedded solid and are installed at rabbling mechanism (33) top and link up mutually, rabbling mechanism (33) lower extreme fixed mounting has shaping structure (34) to rabbling mechanism (33) bottom fixed mounting is at support frame (1) top, shaping structure (34) are located conduction board (2) top.

2. The production equipment of the water-resistant live bacteria blasting bead as claimed in claim 1, characterized in that: rabbling mechanism (33) are including top cap (331), churn (332), choked flow piece (333), agitator (334), motor (31) are installed at top cap (331) up end to inlet pipe (32) are embedded and are installed at top cap (331) top and link up mutually, top cap (331) are installed at churn (332) top, the welding of churn (332) inner wall has choked flow piece (333), agitator (334) are installed in churn (332) inside middle-end to agitator (334) upper end is along with motor (31) output synchronous rotation, molding structure (34) are installed and link up mutually to churn (332) lower extreme.

3. The production equipment of the water-resistant live bacteria blasting bead as claimed in claim 2, characterized in that: agitator (334) is including dwang (34 a), stirring piece (34 b), collude board (34 c), whereabouts mouth (34 d), elastic band (34 e), beat mechanism (34 f), dwang (34 a) upper end rotates along with motor (31) output is synchronous to dwang (34 a) outside and stirring piece (34 b) upper end inboard weld mutually, the welding of stirring piece (34 b) outside up end has colludes board (34 c), and colludes board (34 c) inside and has run through whereabouts mouth (34 d), elastic band (34 e) are installed in the stirring piece (34 b) outside, dwang (34 a) lower extreme is installed and is beaten mechanism (34 f).

4. A water-resistant live bacteria blasting bead production apparatus as claimed in claim 3, wherein: the hammering mechanism (34 f) comprises a spring pipe sleeve (f 1), an expansion rod (f 2), a linkage rod group (f 3) and a hammer pendulum piece (f 4), wherein the spring pipe sleeve (f 1) is installed at the lower end of the rotation rod (34 a), the expansion rod (f 2) is installed inside the spring pipe sleeve (f 1) in a clearance fit mode, the outer side of the lower end of the spring pipe sleeve (f 1) is welded with the upper end of the linkage rod group (f 3), and the lower end of the linkage rod group (f 3) is welded on the inner side end face of the hammer pendulum piece (f 4).

5. The production equipment of the water-resistant live bacteria blasting bead as claimed in claim 2, characterized in that: the forming structure (34) comprises a material guide disc (341), a soaking mechanism (342) and a lower row mechanism (343), the material guide disc (341) is installed at the lower end of the stirring cylinder (332) and is communicated with the stirring cylinder, the soaking mechanism (342) is installed at the middle end inside the material guide disc (341), the lower row mechanism (343) is installed at the lower end of the material guide disc (341) in an embedded mode and is communicated with the lower row mechanism (343), and the soaking mechanism (342) is located above the lower row mechanism (343).

6. The production equipment of the water-resistant live bacteria blasting bead as claimed in claim 5, characterized in that: soaking mechanism (342) includes liquid storage bucket (42 a), cylinder (42 b), lift bushing (42 c), expansion plate (42 d), liquid storage bucket (42 a) fixed mounting is in guide plate (341) inside middle-end to cylinder (42 b) output and lift bushing (42 c) upper end middle part are welded, expansion plate (42 d) adopt clearance fit to install in lift bushing (42 c) middle-end, lift bushing (42 c) lower extreme and liquid storage bucket (42 a) inner wall are inconsistent.

7. The production equipment of the water-resistant live bacteria blasting bead as claimed in claim 6, characterized in that: the lower row mechanism (343) comprises a lower guide pipe (43 a), a feeding hole (43 b), a torsion shaft (43 c) and a guide plate (43 d), wherein the feeding hole (43 b) is embedded in the upper end of the lower guide pipe (43 a), the upper end of the lower guide pipe (43 a) is fixedly embedded in the lower end of the material guide plate (341), the feeding hole (43 b) is positioned below the scraping blade (42 e), and the inner part of the lower guide pipe (43 a) is hinged with the outer end of the guide plate (43 d) through the torsion shaft (43 c).

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