Probiotics drink's canning system
Technical Field
The invention belongs to the field of filling of probiotic beverage cans, and particularly relates to a probiotic beverage canning system
Background
The probiotic milk beverage is a milk beverage which is prepared by taking milk powder, fresh milk and white sugar as main raw materials and fermenting the milk powder, and adopts a plurality of Bacillus bulgaricus, streptococcus acidophilus, lactobacillus acidophilus and the like, and also adopts bifidobacteria to be divided into two types of live bacteria and sterilization, and the production process comprises the steps of raw materials, sterilization, inoculation, fermentation, preparation, homogenization, preparation, sterilization, aseptic packaging, filling and product or sterilization.
1. After the probiotics are produced and processed, the probiotics are required to be filled through filling equipment, and most common filling equipment is single filling, so that the efficiency is low.
2. At present, beverage quantity in a can cannot be accurately controlled in a plurality of canning devices.
Disclosure of Invention
The invention aims at solving the problems in the prior art and provides a probiotic beverage canning system which can be used for canning a plurality of beverage cans and accurately controlling the beverage quantity in the cans.
In order to achieve the above purpose, the present invention adopts the following technical scheme:
the utility model provides a canning system of probiotic drink, includes the shell body, the shell body below is equipped with the conveyer belt, along conveyer belt length and width direction matrix on the conveyer belt, shell body up end one side has set firmly the input port, the shell body in both sides have set firmly support shell, the bin has set firmly in the middle part upside of support shell, the middle part downside bilateral symmetry in the support shell is equipped with the removal track.
Preferably, the pump machine settling chamber is fixedly arranged at the upper end of the middle part in the storage box, the pump machine is arranged in the pump machine settling chamber, connecting shafts are fixedly arranged at two sides in the storage box, rotating blocks are arranged outside the connecting shafts in a sliding mode, the rotating blocks are connected with the connecting shafts in a sliding mode through threads, rotating rings are arranged outside the outer circumferences of the lower sides of the rotating blocks in a sliding mode, a plurality of stirring rods are circumferentially arranged on the outer circumferential side wall of the rotating rings, scraping plates are fixedly arranged outside the stirring rods, a plurality of unidirectional clamping blocks are fixedly arranged on the inner wall of the rotating rings along the circumference of the rotating rings, a plurality of sliding grooves are fixedly arranged on the outer circumference of the rotating blocks, first unidirectional clamping blocks are slidably arranged in the sliding grooves, the unidirectional clamping blocks are in butt joint with the first unidirectional clamping blocks, rotating shafts are slidably arranged outside the rotating blocks, and pressure plates are fixedly arranged outside the rotating shafts.
Preferably, a first outlet is formed in the middle of the lower portion in the storage box, a one-way valve body is slidably arranged in the first outlet, the one-way valve body is elastically connected with the storage box through a first spring, and an extrusion rod is fixedly arranged in the middle of the lower end of the one-way valve body.
Preferably, the sliding mounting platform is arranged in the moving track in a sliding manner, the second one-way valve body is arranged in the middle groove at the upper end of the sliding mounting platform in a sliding manner, the middle part of the upper end face in the second one-way valve body is abutted to the extrusion rod, limiting blocks are fixedly arranged on two sides of the middle part in the sliding mounting platform, a second spring is arranged on one side of each limiting block, the second spring is fixedly connected with one end of the second one-way valve body, a second outlet is arranged on two sides of the lower side in the sliding mounting platform, and a plurality of injection tubes are fixedly arranged below the sliding mounting platform along the length direction of the sliding mounting platform.
Preferably, the upper end is equipped with the ration chamber in the injection tube, the ration chamber bottom slides and is equipped with the ration board, the middle part of ration board is equipped with the through-hole, through first sealing membrane sealing connection between ration chamber lateral wall around the ration board up end, the through-hole passes through third spring and ration chamber bottom elastic connection, the ration chamber bottom is equipped with the arc slotted hole, the arc slotted hole passes and is equipped with the second sealing membrane between third spring and the through-hole, torsion spring housing has been set firmly to ration board below one side, be equipped with the torsional spring in the torsion spring housing, one side of torsion spring housing slides and is equipped with the regulating spindle, the injection tube has been stretched out to the one end of regulating spindle has set firmly the regulation torsion piece, the one end and the ration board bottom fixed connection of torsional spring.
Preferably, the limiting plate is fixedly arranged below the arc-shaped slotted hole in the injection tube, the third one-way valve body is slidably arranged in the limiting plate, the supporting rod is fixedly arranged in the middle of the upper end of the third one-way valve body, the sealing block is fixedly arranged at one end of the supporting rod, the sliding track is fixedly arranged below the limiting plate on two sides of the lower portion in the injection tube, the sliding block is slidably arranged in the sliding track, the sliding block is elastically connected with the third one-way valve body through a fourth spring, and a third sealing film is arranged on one side of the sliding block and one side of the third one-way valve body.
The beneficial effects are that:
1. beverage is pumped out through the pump and the web is extruded simultaneously to enable the floating plate to slide downwards to drive the stirring rod to rotate, so that the stirring rod stirs liquid, meanwhile, the scraping plate outside the stirring rod can scrape the inner wall of the tank, the cleaning is carried out, and the floating plate floats upwards when flowing to the bottom through the liquid.
2. The beverage quantity in the plurality of probiotic beverage cans is accurately controlled, the beverage quantity in each can is guaranteed to be uniform, and the liquid inflow and aggregation quantity in a certain time is controlled by controlling the liquid flow rate, so that the uniformity of the liquid in the cans is guaranteed.
Drawings
Fig. 1 is a perspective view of the present invention.
Fig. 2 is a top view of the present invention.
Fig. 3 is a front view of the present invention.
Fig. 4 is a sectional view taken along the direction A-A in fig. 3.
Fig. 5 is a sectional view in the direction B-B of fig. 4.
Fig. 6 is an enlarged view of the structure at C in fig. 4.
Fig. 7 is an enlarged view of the structure at D in fig. 4.
Fig. 8 is an enlarged view of the structure at E in fig. 4.
Fig. 9 is an enlarged view of the structure at F in fig. 4.
In the drawing, an outer case 10, a conveyor belt 11, a tank 12, an input port 13, a support case 14, a storage tank 15, a moving rail 16, a pump housing chamber 17, a pump 18, a connecting shaft 19, a rotating block 20, a screw 21, a rotating ring 22, a stirring rod 23, a scraper 24, a one-way block 25, a chute 26, a first one-way block 27, a rotating shaft 28, a pressure plate 29, a first outlet 30, a one-way valve body 31, a first spring 32, a pressing rod 33, a slide mounting platform 34, a second one-way valve body 35, a stopper 36, a second spring 37, a syringe 38, a second outlet 39, a dosing chamber 40, a dosing plate 41, a through hole 42, a first sealing film 43, a third spring 44, a second sealing film 45, a torsion spring 46, an adjusting shaft 47, an adjusting torsion block 48, a stopper 49, a third one-way valve body 50, a support rod 51, a fourth spring 52, a third sealing film 53, a slide rail 54, a slider 55, a sealing block 56, an arc 57, a torsion spring housing 58.
Detailed Description
The following are specific embodiments of the present invention and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.
In the description of the present invention, it should be noted that, the azimuth or positional relationship indicated by the terms "inner", "lower", etc. are based on the azimuth or positional relationship shown in the drawings, or the azimuth or positional relationship that the inventive product is conventionally put in use, 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 azimuth, be configured and operated in a specific azimuth, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.
As shown in fig. 1-9, a probiotic beverage canning system comprises an outer shell 10, a conveyor belt 11 is arranged below the outer shell 10, a plurality of cans 12 are arranged on the conveyor belt 11 along the length and width direction of the conveyor belt 11 in a matrix mode, an input port 13 is fixedly arranged on one side of the upper end face of the outer shell 10, supporting shells 14 are fixedly arranged on two sides in the outer shell 10, a storage box 15 is fixedly arranged on the upper side of the middle of the supporting shells 14, and moving rails 16 are symmetrically arranged on the lower two sides of the middle in the supporting shells 14.
Further, the pump settling chamber 17 is fixedly arranged at the upper end of the middle part in the storage box 15, the pump 18 is arranged in the pump settling chamber 17, the connecting shafts 19 are fixedly arranged at the two sides in the storage box 15, the rotating blocks 20 are arranged outside the connecting shafts 19 in a sliding manner, the rotating blocks 20 are connected with the connecting shafts 19 in a sliding manner through threads 21, the rotating rings 22 are arranged on the outer circumference of the lower side outside the rotating blocks 20 in a sliding manner, a plurality of stirring rods 23 are arranged on the circumference of the outer circumference side wall of the rotating rings 22, scraping plates 24 are fixedly arranged outside the stirring rods 23, a plurality of one-way clamping blocks 25 are fixedly arranged on the inner wall of the rotating rings 22 along the circumference of the rotating rings 22, a plurality of sliding grooves 26 are fixedly arranged on the outer circumference of the rotating blocks 20, first one-way clamping blocks 27 are arranged in sliding manner in the sliding grooves 26, the one-way clamping blocks 25 are in butt joint with the first one-way clamping blocks 27, the rotating shafts 28 are arranged on the outer upper sides of the rotating blocks 20, and the pressure plates 29 are fixedly arranged outside the rotating shafts 28.
Further, a first outlet 30 is provided in the middle of the lower portion of the storage tank 15, a check valve body 31 is slidably provided in the first outlet 30, the check valve body 31 is elastically connected with the storage tank 15 through a first spring 32, and an extrusion rod 33 is fixedly provided in the middle of the lower end of the check valve body 31.
Further, a sliding mounting platform 34 is slidably arranged in the moving track 16, a second one-way valve body 35 is slidably arranged in a groove in the middle of the upper end of the sliding mounting platform 34, the middle of the upper end face in the second one-way valve body 35 is abutted to the extrusion rod 33, limiting blocks 36 are fixedly arranged on two sides of the middle in the sliding mounting platform 34, a second spring 37 is arranged on one side of each limiting block 36, the second spring 37 is fixedly connected with one end of the second one-way valve body 35, second outlets 39 are formed on two sides of the lower side in the sliding mounting platform 34, and a plurality of injection tubes 38 are fixedly arranged below the sliding mounting platform 34 along the length direction of the sliding mounting platform 34.
Further, the upper end is equipped with the ration chamber 40 in the syringe 38, the ration chamber 40 bottom slides and is equipped with quantitative board 41, the middle part of quantitative board 41 is equipped with through-hole 42, through first sealing membrane 43 sealing connection between quantitative board 41 up end all around and the quantitative chamber 40 lateral wall, through-hole 42 passes through third spring 44 and quantitative chamber 40 bottom elastic connection, quantitative chamber 40 bottom is equipped with arc slotted hole 57, arc slotted hole 57 passes and is equipped with second sealing membrane 45 between third spring 44 and the through-hole 42, quantitative board 41 below one side has set firmly torsional spring shell 58, be equipped with torsional spring 46 in the torsional spring shell 58, one side of torsional spring shell 58 slides and is equipped with regulating axle 47, the one end of regulating axle 47 stretches out syringe 38 and has set firmly and adjust torsion piece 48, one end and quantitative board 41 bottom fixed connection of torsional spring 46.
Further, a limiting plate 49 is fixedly arranged below the arc-shaped groove hole 57 in the injection tube 38, a third one-way valve body 50 is slidably arranged in the limiting plate 49, a supporting rod 51 is fixedly arranged in the middle of the upper end of the third one-way valve body 50, a sealing block 56 is fixedly arranged at one end of the supporting rod 51, a sliding rail 54 is fixedly arranged below the limiting plate 49 on two sides of the lower portion in the injection tube 38, a sliding block 55 is slidably arranged in the sliding rail 54, the sliding block 55 is elastically connected with the third one-way valve body 50 through a fourth spring 52, and a third sealing film 53 is arranged on one side of the sliding block 55 and one side in the third one-way valve body 50.
Principle of operation
The probiotic beverage is pumped into the storage tank 15 through the input port 13 by the pump 18, and the pressure plate 29 is impacted to enable the pressure plate 29 to move downwards during pumping, and meanwhile the rotating block 20 is driven to rotate and slide downwards outside the connecting shaft 19, so that the stirring rod 23 outside the rotating block 20 can stir liquid in the storage tank 15, probiotics can be uniformly mixed in the beverage, and meanwhile the scraping plate 24 can scrape the inner side wall and the bottom of the storage tank 15 to prevent the probiotics from being adhered to the inner wall of the storage tank 15.
The storage tank 15 stores a part of probiotic beverage, when the sliding mounting platform 34 slides to the upper end, the second check valve body 35 is abutted with the protruding part at the bottom of the storage tank 15, and simultaneously the second check valve body 35 slides downwards to open the through hole, after the through hole is opened, the sliding mounting platform 34 continues to slide upwards to enable the upper end of the second check valve body 35 and the extrusion rod 33 to abut against the extrusion rod 33 to drive the check valve body 31 to slide upwards to enable the through hole at the lower end of the storage tank 15 to be opened, the probiotic beverage flows into the sliding mounting platform 34 through the through hole of the check valve body 31 and passes through the through hole of the second check valve body 35, the probiotic beverage in the sliding mounting platform 34 is input into the injection tube 38 through the second outlet 39, and simultaneously the sliding mounting platform 34 slides downwards to enable the injection tube 38 to cover the tank 12 above the conveyor belt 11.
When the tank body 12 contacts with the injection tube 38, the shell of the tank body 12 is abutted against the sliding block 55 to enable the sliding block 55 to slide in the sliding track 54, when the sliding block 55 slides up to a certain distance, the third one-way valve body 50 slides upwards due to the reaction force of the fourth spring 52, the through hole in the third one-way valve body 50 is opened, liquid above the third one-way valve body 50 flows into the tank body 12 through the through hole in the third one-way valve body 50, meanwhile, the arc-shaped slotted hole 57 is blocked by the sealing block 56 on the supporting rod 51, the third one-way valve body 50 slides downwards to close the through hole after the liquid above the third one-way valve body 50 is drained by the sliding mounting platform 34, the next round of canning is continued after the liquid in the cavity above the third one-way valve body 50 is filled, the torsion spring 46 can be adjusted by the adjusting torsion spring 48, the adjusting plate 41 is lifted or lowered, the rate of the second sealing film 45 is reduced when the metering plate 41 is lifted, the rate of the liquid flowing into the third one-way valve body 50 is lowered, the second sealing film 45 is expanded, the liquid flow rate is increased when the metering plate 41 is lowered, and the filling capacity of the liquid in the tube is controlled, and the filling process is controlled.
When the sliding mounting platform 34 slides down, the sliding mounting platform 34 is disconnected with the storage box 15, the one-way valve body 31 slides down to enable the through hole in the one-way valve body 31 to be closed, liquid gathers downwards in the storage box 15 to generate upward buoyancy to the pressure plate 29, so that the pressure plate 29 moves upwards to drive the rotating block 20 to return to the initial position, the stirring rod 23 rotates and scrapes the inner wall when and only when the rotating block 20 slides downwards, the one-way clamping block 25 and the first one-way clamping block 27 rotate in a one-way mode, the upward sliding force generated by buoyancy is small, and therefore the rotating block 20 and the rotating ring 22 can rotate in the upward sliding process, and the stirring rod 23 does not rotate, so that the force required by the rotating block 20 to move upwards is reduced.
The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes using the descriptions and the drawings of the present invention or directly or indirectly applied to other related technical fields are included in the scope of the invention.