CN113101864B - Prevent probiotic gel granule forming device that draws silk - Google Patents

Abstract

The invention relates to the field of probiotics, in particular to a forming device for anti-wiredrawing probiotics gel particles. The invention aims to provide a forming device for anti-wiredrawing probiotics gel particles. The technical scheme is as follows: an anti-wiredrawing probiotic gel particle forming device comprises a treatment cabin, a support foot stand, a motor seat plate, a water beating condensation system, a dripping system and a forming and collecting system; the lower part of the processing cabin is connected with a supporting foot frame through bolts. The invention realizes the automatic dripping of the probiotic sol, avoids the wire drawing of the probiotic sol in the dripping process, simultaneously prevents the problem of long-time soaking, diffusion and deformation of the probiotic sol by short immersion of the water beat, and has the effect of automatic separation and collection after the probiotic sol is formed into gel.

Description

Prevent probiotic gel granule forming device that draws silk

Technical Field

The invention relates to the field of probiotics, in particular to an anti-wiredrawing probiotic gel particle forming device.

Background

Probiotics are active microorganisms which are beneficial to a host and change the composition of flora at a certain part of the host by colonizing in a human body. The health of the intestinal tract is kept by promoting the absorption of nutrients by regulating the immune function of the host mucous membrane and the system or by regulating the balance of flora in the intestinal tract, so that single microorganisms or mixed microorganisms with definite compositions which are beneficial to the health are generated.

At present, in the preparation process of probiotic gel particles in the prior art, the probiotic sol needs to be dripped into sterile water for cooling, solidification and forming, but in the process of dripping the probiotic sol, the probiotic sol can be drawn after dripping out, so that the partially solidified probiotic gel particles have long drawn wires, the probiotic gel particles need to be manually removed, and meanwhile, the probiotic sol is dripped and solidified under the condition of stronger fluidity, and at the moment, after the probiotic sol enters the sterile water, the sol can deform, so that the shape of the probiotic gel particles is irregular, and the subsequent use is influenced.

In order to solve the problems, a device for forming anti-wiredrawing probiotics gel particles is provided.

Disclosure of Invention

In order to overcome the defects that in the prior art, in the preparation process of probiotic gel particles, probiotic sol needs to be dripped into sterile water for cooling, solidifying and forming, but in the dripping process of the probiotic sol, the probiotic sol can generate wire drawing after dripping out, so that the partially solidified probiotic gel particles have long wire drawing and need to be manually removed, and simultaneously, the dripping and solidifying are carried out under the condition of stronger fluidity of the probiotic sol, and at the moment, after the probiotic sol enters the sterile water, the sol can deform, so that the shape of the probiotic gel particles is irregular, and the subsequent use is influenced, the invention aims to provide the wire drawing prevention probiotic gel particle forming device.

The technical scheme is as follows: a molding device for anti-wiredrawing probiotic gel particles comprises a processing cabin, a supporting foot rest, a motor seat plate, a water beating condensation system, a dripping system and a molding collection system; the lower part of the treatment cabin is connected with a supporting foot frame through bolts; the processing cabin is connected with the motor seat plate through bolts; the treatment cabin is connected with the water beating condensation system; the water beating condensation system is connected with the motor base plate; the processing cabin is connected with the dripping system; the dripping system is connected with the water beating condensation system; the processing cabin is connected with the forming and collecting system; the forming and collecting system is connected with the water beating and condensing system; the forming and collecting system is connected with the dripping system.

As a further preferable scheme, the water beating condensation system comprises a power motor, a first rotating shaft rod, a first driving wheel, a second driving wheel, a third driving wheel, a second rotating shaft rod, a fourth driving wheel, a fixed sleeve, a water beating fan plate and an electric expansion plate; the lower part of the power motor is connected with a motor base plate through a bolt; the first rotating shaft rod is fixedly connected with an output shaft of the power motor; the axle center of the first driving wheel is fixedly connected with the first rotating shaft rod; the first driving wheel is connected with the forming and collecting system; the axle center of the second driving wheel is fixedly connected with the first rotating shaft rod; the outer ring surface of the third driving wheel is in transmission connection with the second driving wheel through a belt; the outer surface of the second rotating shaft rod is fixedly connected with a third driving wheel; the second rotating shaft rod is rotatably connected with the processing cabin; the axle center of the fourth driving wheel is fixedly connected with the second rotating shaft rod; the fourth driving wheel is connected with the dripping system; the inner side of the fixed sleeve is fixedly connected with the second rotating shaft rod; the water beating fan plate is fixedly connected with the fixed sleeve; the electric expansion plate is connected with the water beating fan plate.

As a further preferable scheme, the dropping system comprises a first electric sliding rail, a first electric sliding seat, a first electric rotating shaft seat, a first fixing card box, a first linking groove plate, a dropping plate, a second linking groove plate, a second fixing card box, a second electric rotating shaft seat, a second electric sliding rail, a first mounting frame, a bearing frame plate, a fifth driving wheel, a first bevel gear, a second bevel gear, a screw rod, a second mounting frame, an internal thread sliding seat, a mobile control frame, a gathering plate, a closing-in glue dropping cylinder, a limiting sliding seat, a limiting sliding rod, a third electric rotating shaft seat, a third electric sliding rail, a first electric sliding block, a first breaking rod, a second electric sliding block, a second breaking rod, a first elastic telescopic rod, a second elastic telescopic rod, a third elastic telescopic rod, a fourth elastic telescopic rod, a notch barrier, a mounting side plate and an electric rotating plate; the first electric slide rail is connected with the processing cabin through a bolt; the upper part of the first electric slide rail is connected with a forming and collecting system; the first electric sliding seat is connected with the first electric sliding rail in a sliding manner; the first electric rotating shaft seat is in bolted connection with the first electric sliding seat; the first fixing card box is connected with the first electric rotating shaft seat through a bolt; the first connecting groove plate is connected with the first fixing card box through a bolt; the dripping plate is in sliding connection with the first connecting groove plate; the second connecting groove plate is in sliding connection with the dripping plate; the second fixing card box is connected with the second connecting groove plate through bolts; the second electric rotating shaft seat is connected with the second fixed clamping box through bolts; the second electric sliding seat is in bolted connection with the second electric rotating shaft seat; the second electric sliding rail is in sliding connection with the second electric sliding seat; the second electric slide rail is connected with the processing cabin through bolts; the upper part of the second electric slide rail is connected with a forming and collecting system; the first mounting frame is connected with the processing cabin through bolts; the bearing frame plate is welded with the first mounting frame; the fifth driving wheel is rotationally connected with the bearing frame plate; the outer ring surface of the fifth driving wheel is in transmission connection with the fourth driving wheel through a belt; the axle center of the first bevel gear is fixedly connected with the fifth driving wheel; the second bevel gear is meshed with the first bevel gear; the screw rod is fixedly connected with the second bevel gear; the screw rod is rotatably connected with the first mounting frame; the second mounting frame is rotatably connected with the screw rod; the second mounting frame is connected with the processing cabin through bolts; the inner side of the internal thread sliding seat is in transmission connection with the screw rod; the movable control frame is connected with the internal thread sliding seat through a bolt; the collection plate is in sliding connection with the mobile control frame; the closing-in glue dripping cylinder is sleeved with the collecting plate; the limiting sliding seat is connected with the mobile control frame through a bolt; the outer surface of the limiting slide rod is in sliding connection with the limiting slide seat; the limiting slide bar is fixedly connected with the first mounting frame; the limiting slide bar is fixedly connected with the second mounting frame; the mounting side plate is connected with the assembling plate through bolts; the electric rotating plate is rotatably connected with the mounting side plate; the third electric rotating shaft seat is connected with the electric rotating plate; the third electric slide rail is connected with the third electric rotating shaft seat; the first electric sliding block is connected with the third electric sliding rail in a sliding manner; the first breaking rod is connected with the first electric sliding block; the second electric sliding block is in sliding connection with the third electric sliding rail; the second breaking rod is connected with the second electric sliding block; the first elastic telescopic rod is connected with the first connecting groove plate; the first elastic telescopic rod is connected with the dropping plate; the second elastic telescopic rod is connected with the first connecting groove plate; the second elastic telescopic rod is connected with the dropping plate; the third elastic telescopic rod is connected with the first connecting groove plate; the third elastic telescopic rod is connected with the dropping plate; the fourth elastic telescopic rod is connected with the first connecting groove plate; the fourth elastic telescopic rod is connected with the dropping plate; and welding the notch barrier strip with the dropping plate.

As a further preferable scheme, the forming and collecting system comprises a first electric lifting column, a collecting net, a second electric lifting column, a first bearing seat, a third rotating shaft rod, a second bearing seat, a sixth driving wheel, a fixed connecting sleeve, a rotary mounting frame and a lower pressing roller; the lower part of the first electric lifting column is connected with the processing cabin through a bolt; the lower part of the collecting net is connected with a first electric lifting column through a bolt; the lower part of the second electric lifting column is connected with the processing cabin through a bolt; the upper part of the second electric lifting column is connected with the collecting net through a bolt; the lower part of the first bearing seat is connected with a second electric slide rail through a bolt; the third rotating shaft rod is rotatably connected with the first bearing seat; the lower part of the second bearing seat is connected with a first electric slide rail through a bolt; the second bearing block is rotationally connected with the third rotating shaft rod; the axle center of the sixth driving wheel is fixedly connected with the third rotating shaft rod; the outer ring surface of the sixth driving wheel is in transmission connection with the first driving wheel through a belt; the inner side of the fixed connecting sleeve is fixedly connected with the third rotating shaft rod; the rotary mounting frame is fixedly connected with the fixed connection sleeve; the lower press roll is rotatably connected with the fixed linking sleeve.

As a further preferred scheme, a plurality of notches are arranged on the upper part of the notch barrier at equal intervals.

As a further preferable scheme, two sides of the mobile control frame, which are contacted with the collecting plate, are respectively provided with an electric slide rail.

The invention has the advantages that: (1) the method solves the problems that in the prior art, in the preparation process of probiotic gel particles, probiotic sol needs to be dripped into sterile water for cooling, solidification and molding, but in the dripping process of the probiotic sol, the probiotic sol can generate wire drawing after dripping out, so that the partially solidified probiotic gel particles have long wire drawing and need to be manually removed, and meanwhile, the dripping solidification is carried out under the condition of strong flowability of the probiotic sol, and the sol deforms after the probiotic sol enters the sterile water, so that the shape of the probiotic gel particles is irregular, and the subsequent use is influenced;

(2) designing a water beating condensation system, a dripping system and a forming and collecting system, when in use, firstly adding sufficient probiotic sol into the dripping system, then carrying out dripping forming on the probiotic sol by the dripping system, simultaneously preventing the probiotic sol from dripping and drawing wires, then adding sufficient sterile water into a treatment cabin, controlling the water beating condensation system to beat water, enabling the sterile water to temporarily immerse the probiotic sol for dripping forming particles, obtaining probiotic gel particles after forming, and controlling the forming and collecting system to be matched with the dripping system to separate and collect the probiotic gel particles;

(3) the automatic dripping of the probiotic sol is realized, the wire drawing of the probiotic sol is avoided in the dripping process, meanwhile, the problem of long-time soaking, diffusion and deformation of the probiotic sol is prevented through short immersion of the water beating, and the effect of automatic separation and collection after the gel is obtained in the molding of the probiotic sol is achieved.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of a condensate system of the present invention;

FIG. 3 is a schematic view of a first three-dimensional structure of the dropping system of the present invention;

FIG. 4 is a second schematic perspective view of a dispensing system of the present invention;

FIG. 5 is a schematic perspective view of a first portion of the dispensing system of the present invention;

FIG. 6 is a schematic perspective view of a second portion of the dispensing system of the present invention;

FIG. 7 is a schematic perspective view of a third portion of the dispensing system of the present invention;

FIG. 8 is a schematic perspective view of a fourth portion of the dropping system of the present invention;

FIG. 9 is a schematic perspective view of the forming and collecting system of the present invention;

fig. 10 is a schematic perspective view of the notch barrier of the present invention.

Wherein: 1-a treatment cabin, 2-a supporting foot stand, 3-a motor seat plate, 4-a water beating condensation system, 5-a dropping system, 6-a forming collection system, 401-a power motor, 402-a first rotating shaft rod, 403-a first driving wheel, 404-a second driving wheel, 405-a third driving wheel, 406-a second rotating shaft rod, 407-a fourth driving wheel, 408-a fixed sleeve, 409-a water beating fan plate, 4010-an electric expansion plate, 501-a first electric sliding rail, 502-a first electric sliding seat, 503-a first electric rotating shaft seat, 504-a first fixed card box, 505-a first connecting groove plate, 506-a dropping plate, 507-a second connecting groove plate, 508-a second fixed card box, 509-a second electric rotating shaft seat, 5010-a second electric sliding seat, 5011-second electric sliding rail, 5012-first mounting rack, 5013-bearing frame plate, 5014-fifth driving wheel, 5015-first bevel gear, 5016-second bevel gear, 5017-lead screw, 5018-second mounting rack, 5019-internal thread sliding seat, 5020-mobile control frame, 5021-aggregation plate, 5022-closing-in glue dropping barrel, 5023-limit sliding seat, 5024-limit sliding rod, 5025-third electric rotating shaft seat, 5026-third electric sliding rail, 5027-first electric sliding block, 5028-first breaking rod, 5029-second electric sliding block, 5030-second breaking rod, 5031-first elastic telescopic rod, 5032-second elastic telescopic rod, 5033-third elastic telescopic rod, 5034-fourth elastic telescopic rod, 5035-notch barrier and 5036-side plate mounting, 5037-an electric rotating plate, 601-a first electric lifting column, 602-a collecting net, 603-a second electric lifting column, 604-a first bearing seat, 605-a third rotating shaft rod, 606-a second bearing seat, 607-a sixth driving wheel, 608-a fixed engaging sleeve, 609-a rotating mounting frame, 6010-a lower pressing roller.

Detailed Description

The following further describes the technical solution with reference to specific embodiments, and it should be noted that: the words upper, lower, left, right, and the like used herein to indicate orientation are merely for the location of the illustrated structure in the corresponding figures. The serial numbers of the parts are themselves numbered herein, for example: first, second, etc. are used solely to distinguish one from another as to objects described herein, and do not have any sequential or technical meaning. The application states that: the connection and coupling, unless otherwise indicated, include both direct and indirect connections (couplings).

Example 1

A molding device of anti-wiredrawing probiotic gel particles is shown in figures 1-10 and comprises a processing cabin 1, a supporting foot stool 2, a motor seat plate 3, a water beating condensation system 4, a dripping system 5 and a molding collection system 6; the lower part of the treatment cabin 1 is connected with a supporting foot stand 2 through bolts; the processing cabin 1 is connected with the motor seat plate 3 through bolts; the treatment cabin 1 is connected with a water beating condensation system 4; the water beating condensation system 4 is connected with the motor base plate 3; the processing cabin 1 is connected with a dripping system 5; the dripping system 5 is connected with the water beating condensation system 4; the processing cabin 1 is connected with a forming and collecting system 6; the molding collection system 6 is connected with the water beating condensation system 4; the forming and collecting system 6 is connected with the dripping system 5.

The working steps are as follows: when the anti-wiredrawing probiotic gel particle forming device is used, the device is stably fixed to a working plane, then is externally connected with a power supply and a controller, then sufficient probiotic sol is added into a dropwise adding system 5, then the dropwise adding system 5 carries out dropwise adding forming on the probiotic sol, meanwhile, the probiotic sol is prevented from being dripped and wiredrawn, then sufficient sterile water is added into a treatment cabin 1, at the moment, a water beating condensation system 4 is controlled to beat water, the probiotic sol is immersed in the sterile water for a short time for carrying out dropwise adding forming on particles, the probiotic gel particles are obtained after forming, a forming collection system 6 is controlled to be matched with the dropwise adding system 5 to separate and collect the probiotic gel particles, automatic dropwise adding of the probiotic sol is realized, wiredrawing of the probiotic sol is avoided in the dropwise adding process, meanwhile, the problem of long-time soaking diffusion deformation of the probiotic sol is prevented through short-time immersion of water beating, and the gel is automatically separated and collected after the probiotic sol is formed.

The water beating condensation system 4 comprises a power motor 401, a first rotating shaft rod 402, a first driving wheel 403, a second driving wheel 404, a third driving wheel 405, a second rotating shaft rod 406, a fourth driving wheel 407, a fixed sleeve 408, a water beating fan plate 409 and an electric expansion plate 4010; the lower part of the power motor 401 is connected with a motor base plate 3 through a bolt; the first rotating shaft rod 402 is fixedly connected with an output shaft of the power motor 401; the axle center of the first driving wheel 403 is fixedly connected with the first rotating shaft rod 402; the first driving wheel 403 is connected with the molding collection system 6; the axle center of the second driving wheel 404 is fixedly connected with the first rotating shaft rod 402; the outer annular surface of the third driving wheel 405 is in driving connection with the second driving wheel 404 through a belt; the outer surface of the second rotating shaft rod 406 is fixedly connected with a third driving wheel 405; the second rotating shaft rod 406 is in rotational connection with the processing cabin 1; the axle center of the fourth driving wheel 407 is fixedly connected with the second rotating shaft rod 406; the fourth driving wheel 407 is connected with the dripping system 5; the inner side of the fixed sleeve 408 is fixedly connected with the second rotating shaft rod 406; the flap fan plate 409 is fixedly connected with the fixed sleeve 408; the electric expansion plate 4010 is connected with the water beating fan plate 409.

After the dripping system 5 drips the gum, adding sufficient sterile water into the treatment chamber 1, then driving the first rotating shaft rod 402 to rotate by the power motor 401, then driving the first driving wheel 403 and the second driving wheel 404 to rotate by the first rotating shaft rod 402, further driving the third driving wheel 405 to rotate by the second driving wheel 404, then driving the second rotating shaft rod 406 to rotate by the third driving wheel 405, then driving the fourth driving wheel 407 and the fixed sleeve 408 to rotate by the second rotating shaft rod 406, further driving the flap fan plate 409 to rotate by the fixed sleeve 408, wherein four groups of flap fan plates 409 and electric expansion plates 4010 are arranged, and the flap fan plate 409 and the electric expansion plates 4010 are powered by the storage battery in the flap fan plate 409 during the rotation process, so as to control the electric expansion plates 4010 to contract and extend in real time, the flap fan plate 409 rotates downwards in the direction close to the dripping system 5, and when the flap fan plate 409 just enters the water, electronic expansion plate 4010 of control shrink this moment, flap water fan board 409 forms the vacancy position, avoid flap water fan board 409 to the inside stirring of sterile water, avoid producing the fluctuation of water, when flap water fan board 409 rotates one hundred fifty degrees after entering into the aquatic, control electronic expansion plate 4010 this moment stretches out, and then electronic expansion plate 4010 becomes complete one board, jack up sterile water, and then when flap water fan board 409 rotates to being close to dropwise add system 5 one side, flap water fan board 409 can stir the water at its top to dropwise add system 5, and then make the inside living fungus sol of benefit of dropwise add system 5 can be briefly by sterile water submergence.

The dropping system 5 comprises a first electric sliding rail 501, a first electric sliding seat 502, a first electric rotating shaft seat 503, a first fixed card box 504, a first connecting groove plate 505, a dropping plate 506, a second connecting groove plate 507, a second fixed card box 508, a second electric rotating shaft seat 509, a second electric sliding seat 5010, a second electric sliding rail 5011, a first mounting frame 5012, a bearing frame plate 5013, a fifth driving wheel 5014, a first bevel gear 5015, a second bevel gear 5016, a screw 5017, a second mounting frame 5018, an internal thread sliding seat 5019, a mobile control frame 5020, a collecting plate 5021, a closing rubber dropping barrel 5022, a limiting sliding seat 5023, a limiting sliding rod 5024, a third electric rotating shaft seat 5025, a third electric sliding rail 5036, a first electric sliding block 5027, a first breaking rod 5028, a second electric sliding block 5029, a second breaking rod 5030, a first elastic telescopic rod 5031, a second elastic telescopic rod 5032, a third elastic telescopic rod 5033, a fourth elastic telescopic rod 5034, a third telescopic rod 5038, a third telescopic rod 5034, a telescopic rod 5038, a telescopic rod 5032, a telescopic rod 5034, a telescopic rod 5020, Notched barrier 5035, mounting side plate 5036 and electric rotating plate 5037; the first electric slide rail 501 is connected with the processing cabin 1 through bolts; the upper part of the first electric slide rail 501 is connected with the forming and collecting system 6; the first electric sliding base 502 is connected with the first electric sliding rail 501 in a sliding manner; the first electric spindle base 503 is bolted to the first electric slide base 502; the first fixing clip 504 is connected with the first electric rotating shaft seat 503 through bolts; the first engaging slot plate 505 is bolted to the first stationary cartridge 504; the dropping plate 506 is slidably connected to the first engaging groove plate 505; the second engaging groove plate 507 is in sliding connection with the dripping plate 506; the second fixing clamp box 508 is connected with the second connecting groove plate 507 through bolts; the second electric rotating shaft seat 509 is connected with the second fixing clamp box 508 through bolts; the second electric slide 5010 is bolted to the second electric spindle mount 509; the second electric sliding rail 5011 is in sliding connection with the second electric sliding base 5010; the second electric slide rail 5011 is connected with the treatment cabin 1 through bolts; the upper part of the second electric sliding rail 5011 is connected with a forming and collecting system 6; the first mounting rack 5012 is in bolted connection with the treatment cabin 1; the bearing frame plate 5013 is welded with the first mounting frame 5012; the fifth transmission wheel 5014 is in rotary connection with the bearing frame plate 5013; the outer ring surface of the fifth transmission wheel 5014 is in transmission connection with the fourth transmission wheel 407 through a belt; the axle center of the first bevel gear 5015 is fixedly connected with the fifth transmission wheel 5014; the second bevel gear 5016 is engaged with the first bevel gear 5015; the screw 5017 is fixedly connected with a second bevel gear 5016; the lead screw 5017 is rotatably connected with the first mounting rack 5012; the second mounting bracket 5018 is rotatably connected with the lead screw 5017; the second mounting bracket 5018 is bolted to the processing chamber 1; the inner side of the internal thread sliding seat 5019 is in transmission connection with the screw 5017; the mobile control frame 5020 is in bolted connection with the internal thread sliding seat 5019; the collection plate 5021 is in sliding connection with the mobile control frame 5020; the closing-up rubber dripping cylinder 5022 is sleeved with the collecting plate 5021; the limiting sliding seat 5023 is in bolted connection with the mobile control frame 5020; the outer surface of the limit sliding rod 5024 is in sliding connection with the limit sliding seat 5023; the limit slide bar 5024 is fixedly connected with the first mounting rack 5012; the limit slide bar 5024 is fixedly connected with the second mounting rack 5018; the mounting side plate 5036 is bolted to the collective plate 5021; the electric rotating plate 5037 is rotatably connected with the installation side plate 5036; the third electric rotating shaft holder 5025 is connected to the electric rotating plate 5037; the third electric sliding rail 5026 is connected with a third electric rotating shaft seat 5025; the first electric slider 5027 is in sliding connection with the third electric sliding rail 5026; the first breaking bar 5028 is connected with the first electric slider 5027; the second electric slider 5029 is in sliding connection with the third electric sliding rail 5026; the second breaking bar 5030 is connected to a second electrical slider 5029; the first elastic expansion rod 5031 is connected with the first connecting groove plate 505; the first elastic expansion rod 5031 is connected with the dropping plate 506; the second elastic expansion rod 5032 is connected to the first engaging slot plate 505; the second elastic telescopic rod 5032 is connected with the dropping plate 506; the third elastic telescopic rod 5033 is connected with the first joining slot plate 505; the third elastic telescopic rod 5033 is connected with the dropping plate 506; the fourth elastic telescopic rod 5034 is connected to the first engaging slot plate 505; the fourth elastic telescopic rod 5034 is connected with the dropping plate 506; notched bar 5035 is welded to drip plate 506.

Firstly, connecting the tops of a plurality of closing-in glue dripping cylinders 5022 with a feeding hose, inputting probiotic sol from the outside, intermittently discharging, realizing intermittent glue dripping at the bottoms of the closing-in glue dripping cylinders 5022, dripping the probiotic sol into a spherical groove at the top of a dripping plate 506 from a conical opening at the bottom of the closing-in glue dripping cylinders 5022, controlling a third electric rotating shaft seat 5025 to drive a third electric sliding rail 5026 to rotate due to the viscosity of the probiotic sol after the probiotic sol is dripped into the spherical groove at the top of the dripping plate 506, then driving a first electric sliding block 5027, a first breaking rod 5028, a second electric sliding block 5039 and a second breaking rod 5030 to rotate by the third electric rotating shaft seat 5025, further cutting the drawing wires below the closing-in glue dripping cylinders 5022 by the first breaking rod 5028 and the second breaking rod 5030 in the rotating process, then the two sides of the drawn wire are respectively connected to the surfaces of a first breaking rod 5028 and a second breaking rod 5030, then the moving position of a closing-up rubber dropping barrel 5022 is controlled to continue dropping, then the first breaking rod 5028 and the second breaking rod 5030 are also constantly broken, more and more sol is accumulated on the surfaces of the first breaking rod 5028 and the second breaking rod 5030, then a third electric sliding rail 5026 is controlled to drive a first electric sliding block 5027 and a second electric sliding block 5029 to approach each other, further the first breaking rod 5028 and the second breaking rod 5030 are respectively driven to approach and contact with each other, then probiotic sol on the surfaces of the first breaking rod 5028 and the second breaking rod 5030 is contacted and fused, then an electric rotating plate 5037 is controlled to rotate downwards, further the first breaking rod 5028 and the second breaking rod 5030 are driven to rotate downwards to a vertical downward direction, then the dripped probiotic sol on the surfaces of the first breaking rod 5028 and the second breaking rod 5030 is dripped into a spherical groove of a spherical plate 506, meanwhile, the fourth transmission wheel 407 drives the fifth transmission wheel 5014 to rotate, then the fifth transmission wheel 5014 drives the first bevel gear 5015 to rotate, then the first bevel gear 5015 drives the second bevel gear 5016 to rotate, then the second bevel gear 5016 drives the lead screw 5017 to rotate, then the lead screw 5017 rotates to drive the internally threaded sliding seat 5019 to move, then the internally threaded sliding seat 5019 drives the moving control frame 5020 to move, the moving control frame 5020 drives the limit sliding seat 5023 to slide on the surface of the limit sliding rod 5024, further the moving control frame 5020 drives the collecting plate 5021 and the closing-up dispensing cartridge 5022 to move, meanwhile, an electric sliding rail is arranged at a position where the inner side of the moving control frame 5020 is in contact with the collecting plate 5021, further the collecting plate 5021 can be driven to realize moving control in the other direction, and finally the closing-up dispensing cartridges 5022 can be controlled to be sequentially aligned with the spherical grooves of the dispensing plate 506 to be sequentially and accurately dispensed, after the dropping is finished, adding a sufficient amount of sterile water into the processing chamber 1 to enable the liquid level of the sterile water to be flush with the top surface of the dropping plate 506, then controlling the water beating condensation system 4 to stir the water to the top surface of the dropping plate 506, further cooling and solidifying the probiotic sol in the spherical groove at the top of the dropping plate 506 by the sterile water, after the solidification is finished, pumping out the sterile water in the processing chamber 1, then controlling the first electric slide rail 501 and the second electric slide rail 5011 to respectively drive the first electric slide seat 502 and the second electric slide seat 5010 to move, further respectively driving the first electric rotary shaft seat 503 and the second electric rotary shaft seat 509 to move, and then respectively driving the first fixing card box 504 and the second fixing card box 508 to move, namely, the first fixing card box 504 and the second fixing card box 508 drive the first connecting slot plate 505, the second connecting slot plate 501509 to move, The dropping plate 506 and the second engaging groove plate 507 move, and after the dropping plate 506 leaves from below the second mounting frame 5018, at this time, the first electric spindle seat 503 and the second electric spindle seat 509 are controlled to synchronously rotate in the same direction, the first electric spindle base 503 and the second electric spindle base 509 are then secured by the first securement cartridge 504 and the second securement cartridge 508 respectively, and then the first joining slot plate 505, the dropping plate 506 and the second joining slot plate 507 are driven to rotate, the first joining slot plate 505, the dropping plate 506 and the second joining slot plate 507 are controlled to rotate one hundred eighty degrees and then stop, and at this time, the side of the dropping plate 506 bearing the probiotic gel faces downwards, and then, the dripping plate 506 is driven to move continuously through the first electric sliding rail 501 and the second electric sliding rail 5011 until the dripping plate moves right above the collecting net 602, and then the dripping plate stops moving, so that the molding and the transfer of the probiotic gel particles are completed.

The forming and collecting system 6 comprises a first motorized lifting column 601, a collecting net 602, a second motorized lifting column 603, a first bearing seat 604, a third rotating shaft rod 605, a second bearing seat 606, a sixth driving wheel 607, a fixed engaging sleeve 608, a rotating mounting frame 609 and a lower pressing roller 6010; the lower part of the first electric lifting column 601 is connected with the processing cabin 1 through bolts; the lower part of the collecting net 602 is connected with a first electric lifting column 601 through bolts; the lower part of the second electric lifting column 603 is connected with the treatment cabin 1 through a bolt; the upper part of the second electric lifting column 603 is connected with the collecting net 602 by bolts; the lower part of the first bearing seat 604 is connected with a second electric sliding rail 5011 through a bolt; the third rotating shaft 605 is rotatably connected to the first bearing seat 604; the lower part of the second bearing seat 606 is connected with the first electric slide rail 501 through bolts; the second bearing housing 606 is in rotational connection with a third rotating shaft rod 605; the axis of the sixth transmission wheel 607 is fixedly connected with the third rotating shaft lever 605; the outer ring surface of the sixth transmission wheel 607 is in transmission connection with the first transmission wheel 403 through a belt; the inner side of the fixed connection sleeve 608 is fixedly connected with the third rotating shaft rod 605; the rotary mounting frame 609 is fixedly connected with the fixed connecting sleeve 608; the hold-down roller 6010 is rotatably coupled to the fixed adapter sleeve 608.

At this time, the dripping plate 506 moves right above the collecting net 602 with its front surface facing downward, and then the first electric lifting column 601 and the second electric lifting column 603 are controlled to extend upward to drive the collecting net 602 to move upward to a position close to the dripping plate 506, at the same time, the first transmission wheel 403 drives the sixth transmission wheel 607 to rotate, and further the sixth transmission wheel 607 drives the third rotation shaft lever 605 to rotate, the third rotating shaft 605 then rotates the fixed engagement sleeve 608, the rotating mount 609 and the lower press roll 6010, when the lower press roll 6010 rotates downward, the bottom of the lower press roll 6010 comes into contact with the dropping plate 506, then, when the lower press roller 6010 is rotated to a vertically downward position, the lower press roller 6010 presses the dropping plate 506 downward, and the drip plate 506 is bent downward, and the molded probiotic gel particles inside the spherical groove of the drip plate 506 are dropped therefrom, then is received and collected by the collecting net 602, and the collection of the probiotic gel particles is completed.

A plurality of slots are equidistantly formed in the upper portion of the notched barrier 5035.

When the racquet condensation system 4 stirs the sterile water to the notch blocking strip 5035, a part of the sterile water will slowly flow to the spherical groove part on the surface of the dropping plate 506 through the notch, and then another part of the sterile water will flow upward through the un-notched inclined part of the notch blocking strip 5035 and then enter the spherical groove part on the surface of the dropping plate 506, so that the flowing time of the sterile water is prolonged, and the probiotic sol is prevented from being dispersed by violent impact.

Two sides of the mobile control frame 5020, which are in contact with the collection plate 5021, are respectively provided with an electric sliding rail.

So that the movement control frame 5020 can drive the collecting plate 5021 to move through the two electric sliding rails.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (3)

1. An anti-wiredrawing probiotic gel particle forming device is characterized by comprising a treatment cabin (1), a supporting foot stand (2) and a motor seat plate (3); the device is characterized by also comprising a water beating condensation system (4), a dropping system (5) and a forming and collecting system (6); the lower part of the processing cabin (1) is connected with a supporting foot stand (2) by bolts; the processing cabin (1) is connected with the motor seat plate (3) through bolts; the treatment cabin (1) is connected with a water beating condensation system (4); the water beating condensation system (4) is connected with the motor base plate (3); the processing cabin (1) is connected with the dripping system (5); the dripping system (5) is connected with the water beating condensation system (4); the processing cabin (1) is connected with a forming and collecting system (6); the forming and collecting system (6) is connected with the water beating and condensing system (4); the forming and collecting system (6) is connected with the dripping system (5);

the water beating condensation system (4) comprises a power motor (401), a first rotating shaft rod (402), a first driving wheel (403), a second driving wheel (404), a third driving wheel (405), a second rotating shaft rod (406), a fourth driving wheel (407), a fixed sleeve (408), a water beating fan plate (409) and an electric expansion plate (4010); the lower part of the power motor (401) is connected with a motor seat plate (3) through a bolt; the first rotating shaft rod (402) is fixedly connected with an output shaft of the power motor (401); the axle center of the first driving wheel (403) is fixedly connected with the first rotating shaft rod (402); the first driving wheel (403) is connected with the forming and collecting system (6); the axle center of the second transmission wheel (404) is fixedly connected with the first rotating shaft rod (402); the outer ring surface of the third driving wheel (405) is in transmission connection with the second driving wheel (404) through a belt; the outer surface of the second rotating shaft rod (406) is fixedly connected with a third driving wheel (405); the second rotating shaft rod (406) is rotationally connected with the processing cabin (1); the axle center of the fourth transmission wheel (407) is fixedly connected with the second rotating shaft rod (406); the fourth transmission wheel (407) is connected with the dripping system (5); the inner side of the fixed sleeve (408) is fixedly connected with the second rotating shaft rod (406); the water beating fan plate (409) is fixedly connected with the fixed sleeve (408); the electric expansion plate (4010) is connected with the water beating fan plate (409);

the dripping system (5) comprises a first electric sliding rail (501), a first electric sliding seat (502), a first electric rotating shaft seat (503), a first fixing card box (504), a first connecting groove plate (505), a dripping plate (506), a second connecting groove plate (507), a second fixing card box (508), a second electric rotating shaft seat (509), a second electric sliding seat (5010), a second electric sliding rail (5011), a first mounting rack (5012), a bearing frame plate (5013), a fifth transmission wheel (5014), a first bevel gear (5015), a second bevel gear (5016), a screw rod (5017), a second mounting rack (5018), an internal thread sliding seat (5019), a mobile control frame (5020), a collecting plate (5021), a dripping rubber cylinder (5022), a limiting closing-up port (5023), a limiting sliding rod (5024), a third electric rotating shaft seat (5025), a third electric sliding rail (5026), a first electric sliding block (5027), A first breaking rod (5028), a second electric slider (5029), a second breaking rod (5030), a first elastic telescopic rod (5031), a second elastic telescopic rod (5032), a third elastic telescopic rod (5033), a fourth elastic telescopic rod (5034), a notch barrier strip (5035), a mounting side plate (5036) and an electric rotating plate (5037); the first electric slide rail (501) is connected with the processing cabin (1) through a bolt; the upper part of the first electric slide rail (501) is connected with a forming and collecting system (6); the first electric sliding seat (502) is connected with the first electric sliding rail (501) in a sliding manner; the first electric rotating shaft seat (503) is connected with the first electric sliding seat (502) through a bolt; the first fixing clamping box (504) is connected with the first electric rotating shaft seat (503) through a bolt; the first connecting groove plate (505) is connected with the first fixing clamp box (504) through bolts; the dripping plate (506) is connected with the first connecting groove plate (505) in a sliding way; the second connecting groove plate (507) is in sliding connection with the dripping plate (506); the second fixing clamp box (508) is connected with the second connecting groove plate (507) through bolts; the second electric rotating shaft seat (509) is connected with the second fixed clamping box (508) through bolts; the second electric sliding seat (5010) is in bolted connection with the second electric rotating shaft seat (509); the second electric sliding rail (5011) is in sliding connection with the second electric sliding seat (5010); the second electric sliding rail (5011) is connected with the processing cabin (1) through bolts; the upper part of the second electric sliding rail (5011) is connected with a forming and collecting system (6); the first mounting rack (5012) is connected with the processing cabin (1) through bolts; the bearing frame plate (5013) is welded with the first mounting frame (5012); the fifth transmission wheel (5014) is rotatably connected with the bearing frame plate (5013); the outer ring surface of the fifth transmission wheel (5014) is in transmission connection with the fourth transmission wheel (407) through a belt; the axle center of the first bevel gear (5015) is fixedly connected with the fifth transmission wheel (5014); the second bevel gear (5016) is meshed with the first bevel gear (5015); the screw rod (5017) is fixedly connected with the second bevel gear (5016); the screw rod (5017) is rotatably connected with the first mounting rack (5012); the second mounting rack (5018) is rotatably connected with the screw rod (5017); the second mounting rack (5018) is connected with the processing cabin (1) through bolts; the inner side of the internal thread sliding seat (5019) is in transmission connection with a screw rod (5017); the mobile control frame (5020) is connected with the internal thread sliding seat (5019) through a bolt; the collection plate (5021) is in sliding connection with the mobile control frame (5020); the closing-in glue dripping cylinder (5022) is sleeved with the collecting plate (5021); the limiting sliding seat (5023) is connected with the movable control frame (5020) through a bolt; the outer surface of the limit sliding rod (5024) is in sliding connection with the limit sliding seat (5023); the limiting sliding rod (5024) is fixedly connected with the first mounting rack (5012); the limiting slide bar (5024) is fixedly connected with the second mounting rack (5018); the mounting side plate (5036) is in bolt connection with the collecting plate (5021); the electric rotating plate (5037) is rotatably connected with the installation side plate (5036); the third electric rotating shaft seat (5025) is connected with the electric rotating plate (5037); the third electric sliding rail (5026) is connected with the third electric rotating shaft seat (5025); the first electric slider (5027) is in sliding connection with the third electric sliding rail (5026); the first breaking rod (5028) is connected with the first electric slider (5027); the second electric slider (5029) is in sliding connection with the third electric sliding rail (5026); the second breaking rod (5030) is connected with the second electric slider (5029); the first elastic telescopic rod (5031) is connected with the first connecting groove plate (505); the first elastic telescopic rod (5031) is connected with the dropping plate (506); the second elastic telescopic rod (5032) is connected with the first connecting groove plate (505); the second elastic telescopic rod (5032) is connected with the dropping plate (506); the third elastic telescopic rod (5033) is connected with the first connecting groove plate (505); the third elastic telescopic rod (5033) is connected with the dropping plate (506); the fourth elastic telescopic rod (5034) is connected with the first connecting groove plate (505); the fourth elastic telescopic rod (5034) is connected with the dropping plate (506); the notch barrier strip (5035) is welded with the dropping plate (506);

the forming and collecting system (6) comprises a first electric lifting column (601), a collecting net (602), a second electric lifting column (603), a first bearing seat (604), a third rotating shaft rod (605), a second bearing seat (606), a sixth driving wheel (607), a fixed engaging sleeve (608), a rotating mounting frame (609) and a lower pressure roller (6010); the lower part of the first electric lifting column (601) is connected with the processing cabin (1) through a bolt; the lower part of the collecting net (602) is connected with a first electric lifting column (601) through a bolt; the lower part of the second electric lifting column (603) is connected with the processing cabin (1) through a bolt; the upper part of the second electric lifting column (603) is connected with the collecting net (602) through bolts; the lower part of the first bearing seat (604) is connected with a second electric sliding rail (5011) through a bolt; the third rotating shaft rod (605) is in rotating connection with the first bearing seat (604); the lower part of the second bearing seat (606) is connected with a first electric slide rail (501) through a bolt; the second bearing seat (606) is in rotary connection with the third rotating shaft rod (605); the axis of the sixth transmission wheel (607) is fixedly connected with the third rotating shaft lever (605); the outer ring surface of the sixth transmission wheel (607) is in transmission connection with the first transmission wheel (403) through a belt; the inner side of the fixed connecting sleeve (608) is fixedly connected with a third rotating shaft lever (605); the rotary mounting frame (609) is fixedly connected with the fixed connecting sleeve (608); the lower press roll (6010) is rotatably connected with the fixed engaging sleeve (608).

2. The device for forming anti-filamentation probiotic gel particles as claimed in claim 1, wherein the upper part of the notch barrier (5035) is provided with a plurality of slots at equal intervals.

3. The anti-wiredrawing probiotic gel particle forming device according to claim 2, wherein two sides of the mobile control frame (5020) in contact with the collection plate (5021) are respectively provided with an electric slide rail.

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