CN111115532A - Ferment drink production is filled with ration and is filled equipment - Google Patents

Abstract

The invention relates to the technical field of quantitative filling equipment for enzyme drinks, in particular to quantitative filling equipment for enzyme drink production; a servo motor is adopted to drive the first rotating wheel to rotate, the push-pull rod drives the first piston plate to move left and right, and the second piston plate moves left and right and the third piston plate moves up and down due to pressure balance; the rack moves left and right along with the second piston plate and drives the first gear to drive the first rotating shaft to rotate, so that the stirring rod can stir the beverage in the liquid storage tank, the sedimentation is reduced, and the uniformity of subsequent filling is improved; the third piston plate drives the moving rod to move up and down relative to the fourth piston plate, and the drinks are pumped into the fourth piston cylinder from the liquid storage tank and then discharged by matching with the one-way valves on the two sides. Because the movement distance of the push-pull rod with the first piston plate is fixed, the movement distance of the third piston plate is also fixed, and then the fourth piston plate moves at a fixed distance, so that the fourth piston cylinder completes quantitative beverage pumping and discharging.

Description

Ferment drink production is filled with ration and is filled equipment

Technical Field

The invention relates to the technical field of enzyme drink quantitative filling equipment, in particular to quantitative filling equipment for enzyme drink production.

Background

The ferment beverage is a beverage containing a plurality of ferment metabolites extracted from a huge ferment group derived from plants and microorganisms.

Specifically, the enzyme is a substance with special biological activity composed of amino acids, which is present in all living animals and plants and is an essential substance for maintaining the body's normal functions, digesting food, repairing tissues and other vital activities.

Enzymes have many beneficial effects on the human body:

1, conditioning the stomach and intestine, improving digestion and absorption and strengthening physique;

2, the hydrolase in the enzyme mainly catalyzes the hydrolysis reaction, and important hydrolases include amylase, lipase, protease and the like. Wherein, amylase can hydrolyze starch into dextrin, maltose and glucose; lipases can hydrolyze fats to produce diglycerides, monoglycerides, glycerol, and fatty acids; proteases hydrolyze proteins to produce primarily peptides and amino acids. The effects of regulating stomach and intestine, promoting digestion and absorption, and improving body constitution are achieved.

3, enhancing immunity, improving resistance, diminishing inflammation and sterilizing.

4, some plant composite enzymes can directly activate macrophages, activate immune functions in human bodies and maintain a strong and powerful immune system.

5, eliminating free radicals, delaying senility, preventing cancer and beautifying.

Glutathione peroxidase (GSH-Px) in the enzyme can reduce lipid peroxides into fatty acid alcohols, which together with SOD constitute an enzyme system defense system for eliminating free radicals.

For obese people, the enzyme is also helpful for improving the digestion function of the body, and when the dietotherapy is carried out, the plant composite enzyme is taken, so that the enzyme has the effects of activating various mechanisms of the human body, strengthening the metabolic function of the whole body, adjusting the state of the whole body, promoting the metabolism of fat, starch and protein and improving the obesity caused by overnutrition.

The ferment beverage is increasingly popular among consumers as a beverage with various benefits.

Need fill and fill the work when carrying out ferment drink production, large-scale filling equipment structure is complicated among the prior art, and the cost is higher to be not fit for middle-size and small-size enterprise and use, need design a lower filling equipment of cost.

And ferment drink easily appears subsiding, and the current filling equipment easily causes the great condition of product concentration difference around when the suction, makes the product homogeneity can not satisfy the requirement. And the work of quantitative filling is needed to be realized during filling, and the mode of frequently opening or closing the valve is troublesome.

Therefore, need design a ferment drink production and fill equipment with ration, redesigned the mode that the ration was filled, solved above-mentioned problem.

Disclosure of Invention

Technical problem to be solved

The invention aims to overcome the defects in the prior art and provides quantitative filling equipment for enzyme drink production.

(II) technical scheme

A quantitative filling device for enzyme beverage production comprises a frame, a piston assembly, a stirring assembly, a pumping assembly, a transmission assembly and a switching assembly;

the frame comprises a base, a left side plate and a top plate, and the left ends of the base and the top plate are connected through the left side plate; a piston assembly is arranged below the top plate, and a stirring assembly is matched on the right side of the piston assembly; a liquid storage tank is arranged at the right part of the base, and the lower section of the stirring component extends into the liquid storage tank; the right side of the piston assembly is also provided with a pumping and exhausting assembly; the middle part of the base is provided with a switching component, and the switching component is connected with the piston component through a transmission component.

Preferably, the piston assembly comprises a servo motor, a first rotating wheel, a push-pull rod, a first piston cylinder, a first support rod, a first piston plate, a first connecting pipe, a second piston cylinder, a second support rod, a second piston plate, a rack, a second connecting pipe, a third piston cylinder, a third piston plate, a moving rod and a third support rod;

the servo motor is arranged on the upper part of the right side of the left side plate, and the front end of the servo motor is connected with a first rotating wheel; the first piston cylinder is horizontally arranged on the right side of the first rotating wheel, and the top of the first piston cylinder is connected with the top plate through a first support rod; the first piston cylinder is provided with a first piston plate moving left and right; the left end of the push-pull rod is hinged with the eccentric position of the surface of the first rotating wheel disc, and the right end of the push-pull rod extends into the first piston cylinder and is hinged with the left side of the first piston plate;

the second piston cylinder is arranged on the right side of the first piston cylinder, and the top of the second piston cylinder is connected with the top plate through a second support rod; the left end of the second piston cylinder is communicated with the right end of the first piston cylinder through a first connecting pipe, and a valve is arranged on the first connecting pipe; a second piston plate moving left and right is arranged in the second piston cylinder, and a rack is connected to the right side of the second piston plate;

the third piston cylinder is arranged below the second piston cylinder and is connected with the first piston cylinder through a third supporting rod; the top end of the second piston cylinder is communicated with the right end of the first piston cylinder through a second connecting pipe, and a valve is arranged on the second connecting pipe; a third piston plate which moves up and down is arranged in the third piston cylinder, and the bottom of the third piston plate is connected with a moving rod;

the areas among the first piston plate, the second piston plate and the third piston plate are filled with liquid.

Preferably, the liquid reserve tank sets up on placing the board, places the board bottom symmetric connection and has No. five branches, and No. five branch bottom connection bases.

Preferably, the stirring assembly comprises a first gear, a first rotating shaft, a stirring rod, a horizontal plate and a fourth supporting rod;

the right end of the rack extends out of the second piston cylinder and is matched with the first gear, and the first gear is arranged at the top end of the first rotating shaft; a horizontal plate is connected to the lower part of the right part of the top plate through a fourth supporting rod, and a first rotating shaft penetrates through and is rotatably connected with the horizontal plate; the lower section of the first rotating shaft extends into the liquid storage tank and is uniformly provided with four support rods.

Preferably, the pumping and draining assembly comprises a piston cylinder No. four, a piston plate No. four, a pipette, a drain pipe, a nozzle and a support rod No. six;

the fourth piston cylinder is arranged below the third piston cylinder and is connected with the first piston cylinder through a sixth supporting rod; a fourth piston plate which moves up and down is also arranged in the fourth piston cylinder, and the bottom end of the movable rod extends into the fourth piston cylinder and is connected with the fourth piston plate; the right side of the bottom end of the fourth piston cylinder is connected with a pipette, and the pipette is provided with a first check valve for controlling liquid to enter the fourth piston cylinder; the liquid suction pipe extends into the liquid storage tank; the left side of the bottom end of the fourth piston cylinder is connected with a liquid discharge pipe, the liquid discharge pipe is provided with a second check valve for controlling liquid to be discharged out of the fourth piston cylinder, and the outer end of the liquid discharge pipe is downwards connected with a nozzle.

Preferably, the pipette is a flexible tube; the inner wall of the liquid storage tank is uniformly provided with a fixing clamp, and the liquid suction pipe penetrates through the fixing clamp and extends to the lower part of the liquid storage tank; the liquid discharge pipe is a hard pipe.

Preferably, the switching component comprises a second rotating shaft, a grooved pulley, a turntable, a placing groove, a driving plate, a third rotating shaft and a first bevel gear;

the second rotating shaft is vertically arranged, the bottom end of the second rotating shaft is rotatably connected with the base, and the top end of the second rotating shaft is coaxially connected with the rotating disc; a plurality of placing grooves are uniformly arranged on the turntable in the circumferential direction; a grooved pulley is arranged on the second rotating shaft, and a driving plate is matched on the left side of the grooved pulley; the drive plate is arranged at the top end of the third rotating shaft, and the bottom end of the third rotating shaft is also rotationally connected with the base; and a first bevel gear is also arranged on the third rotating shaft.

Preferably, the transmission assembly comprises a mounting rod, a third rotating wheel, a third transmission belt, a third bevel gear, a fourth rotating shaft, a support and a second bevel gear;

the mounting rod is arranged at the left part of the base, the top end of the mounting rod is provided with a third rotating wheel, and the third rotating wheel is connected with the first rotating wheel through a third driving belt; the third rotating wheel is coaxially connected with a third bevel gear, and the third bevel gear is vertically meshed with a fourth bevel gear; the fourth bevel gear is arranged at the left end of the fourth rotating shaft; the fourth rotating shaft penetrates through and is rotatably connected with the support, and the support is fixed on the base; no. four pivot right ends are provided with No. two bevel gears, and No. two bevel gear and bevel gear vertical meshing.

Preferably, the device further comprises a lifting assembly; the lifting assembly comprises a second type transmission wheel, a second transmission belt, a fifth rotating shaft and a third gear;

the fifth support rod consists of an internal threaded pipe and a lifting screw rod; the bottom end of the internal thread pipe is rotationally connected with the base through a bearing, the internal thread pipe is correspondingly provided with a first-class driving wheel and is in transmission connection through a first driving belt, and the internal thread pipe on the right side is also provided with a second-class gear; the lower section of the lifting screw is in threaded connection with the internal thread pipe, and the top end of the lifting screw is fixedly connected with the placing plate; the fifth rotating shaft is arranged on the right side of the placing plate, and the upper end and the lower end of the fifth rotating shaft are respectively and rotatably connected with the horizontal plate and the base; the lower section of the fifth rotating shaft is provided with a third gear corresponding to the second gear, and the third gear is meshed with the second gear; the upper section of the fifth rotating shaft and the first rotating shaft are correspondingly provided with a second type of driving wheels and are in transmission connection through a second driving belt.

Preferably, the device further comprises an adjusting component; the adjusting component comprises a third connecting pipe, a fifth piston cylinder, a fifth piston plate, an adjusting screw rod and a hand wheel;

the piston cylinder V is arranged below the piston cylinder I; the right end of the first piston cylinder is communicated with the top of the fifth piston cylinder through a third connecting pipe; a fifth piston plate which moves up and down is arranged in the fifth piston cylinder; the adjusting screw penetrates through and is in threaded connection with the bottom plate of the piston cylinder V, the bottom end of the adjusting screw is provided with a hand wheel, and the top end of the adjusting screw extends into the piston cylinder V and is rotatably connected with the piston plate V through a bearing.

(III) advantageous effects

The invention provides quantitative filling equipment for enzyme beverage production, which has the following advantages:

1, a servo motor is adopted to drive a first rotating wheel to rotate, a push-pull rod drives a first piston plate to move left and right, and a second piston plate and a third piston plate move left and right respectively and move up and down respectively due to pressure balance; the rack moves left and right along with the second piston plate and drives the first gear to drive the first rotating shaft to rotate, so that the stirring rod can stir the beverage in the liquid storage tank, the sedimentation is reduced, and the uniformity of subsequent filling is improved; the third piston plate drives the moving rod to move up and down relative to the fourth piston plate, and the drinks are pumped into the fourth piston cylinder from the liquid storage tank and then discharged by matching with the one-way valves on the two sides. Because the movement distance of the push-pull rod with the first piston plate is fixed, the movement distance of the third piston plate is also fixed, and then the fourth piston plate moves at a fixed distance, so that the fourth piston cylinder completes quantitative beverage pumping and discharging.

2, when runner pivoted, still drive No. three runners through No. three drive belts and rotate, and make coaxial No. three bevel gear rotate, and then make No. four pivots rotate through the bevel gear transmission, make the No. two bevel gear rotations of right-hand member, equally through the bevel gear transmission, make a bevel gear take No. three pivots to rotate, thereby make the driver plate stir the sheave intermittent type and rotate, and then take carousel intermittent type to rotate through No. two pivots, realize the switching of different standing grooves, the cooperation pump drainage subassembly is accomplished automatic ration and is filled in.

3, still set up lifting unit, when utilizing a pivot reciprocating rotation, still make No. five pivots through the transmission and rotate to make the internal thread pipe on right side rotate through gear engagement, make two internal thread pipes all reciprocating rotation through the transmission equally, with the screw rod precession screw-out that goes up and down, the board reciprocates is placed in the area, thereby makes liquid reserve tank and stirring rod take place the relative displacement of vertical direction, enlarges the stirring region of stirring rod, further avoids the condition of subsiding to appear.

4, still set up the adjustment assembly, utilized the piston cylinder of number five to shunt, reduced the liquid volume that flows into the piston cylinder of number three. The position of the fifth piston plate is adjusted as required, so that the displacement distance of the third piston plate is changed, the extraction volume of the fourth piston cylinder is changed, and the filling dosage is adjusted to adapt to different requirements.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only for the present invention and protect some embodiments, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a block diagram of the present invention;

FIG. 2 is a block diagram of one embodiment of the present invention;

FIG. 3 is a block diagram of the piston assembly;

FIG. 4 is a block diagram of a stirring assembly;

FIG. 5 is a block diagram of the pumping assembly;

FIG. 6 is a block diagram of the transmission assembly and the shift assembly;

FIG. 7 is a block diagram of the lift assembly;

FIG. 8 is a block diagram of an adjustment assembly;

in the drawings, the components represented by the respective reference numerals are listed below:

1-frame, 101-base, 102-left side plate, 103-top plate;

2-piston assembly, 201-servo motor, 202-first rotating wheel, 203-push-pull rod, 204-first piston cylinder, 205-first supporting rod, 206-first piston plate, 207-first connecting pipe, 208-second piston cylinder, 209-second supporting rod, 210-second piston plate, 211-rack, 212-second connecting pipe, 213-third piston cylinder, 214-third piston plate, 215-moving rod and 216-third supporting rod;

3-stirring component, 301-first gear, 302-first rotating shaft, 303-stirring rod, 304-horizontal plate and 305-fourth supporting rod;

4-liquid storage tank, 401-five support rods and 402-placing plate;

4011-internal thread tube, 4012-lifting screw, 4013-a kind of driving wheel, 4014-first driving belt and 4015-second gear;

5-pumping and draining assembly, 501-piston cylinder IV, 502-piston plate IV, 503-pipette, 504-fixing clamp, 506-drain pipe, 507-nozzle, 508-support rod VI;

6-switching component, 601-second rotating shaft, 602-grooved wheel, 603-rotating disc, 604-placing groove, 605-driving disc, 606-third rotating shaft and 607-first bevel gear;

7-a transmission component, 701-a mounting rod, 702-a third rotating wheel, 703-a third transmission belt, 704-a third bevel gear, 705-a fourth bevel gear, 706-a fourth rotating shaft, 707-a support and 708-a second bevel gear;

8-lifting component, 801-second type transmission wheel, 802-second transmission belt, 803-fifth rotating shaft and 804-third gear;

9-adjusting component, 901-third connecting pipe, 902-fifth piston cylinder, 903-fifth piston plate, 904-adjusting screw rod and 905-handwheel.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that, as the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. appear, their indicated orientations or positional relationships are based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Moreover, the terms "first," "second," and "third," if any, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" should be interpreted broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

Referring to the attached drawings, the quantitative filling equipment for producing the ferment beverage comprises a frame 1, a piston assembly 2, a stirring assembly 3, a pumping assembly 5, a transmission assembly 7 and a switching assembly 6;

the frame 1 comprises a base 101, a left side plate 102 and a top plate 103, wherein the left ends of the base 101 and the top plate 103 are connected through the left side plate 102; a piston assembly 2 is arranged below the top plate 103, and a stirring assembly 3 is matched at the right side of the piston assembly 2; the liquid storage tank 4 is arranged at the right part of the base 101, and the lower section of the stirring component 3 extends into the liquid storage tank 4; the right side of the piston assembly 2 is also provided with a pumping and exhausting assembly 5; the middle part of the base 101 is provided with a switching assembly 6, and the switching assembly 6 is connected with the piston assembly 2 through a transmission assembly 7.

Example 2

Referring to the attached drawings, the quantitative filling equipment for producing the ferment beverage comprises a frame 1, a piston assembly 2, a stirring assembly 3, a pumping assembly 5, a transmission assembly 7 and a switching assembly 6;

the frame 1 comprises a base 101, a left side plate 102 and a top plate 103, wherein the left ends of the base 101 and the top plate 103 are connected through the left side plate 102; a piston assembly 2 is arranged below the top plate 103, and a stirring assembly 3 is matched at the right side of the piston assembly 2; the liquid storage tank 4 is arranged at the right part of the base 101, and the lower section of the stirring component 3 extends into the liquid storage tank 4; the right side of the piston assembly 2 is also provided with a pumping and exhausting assembly 5; the middle part of the base 101 is provided with a switching assembly 6, and the switching assembly 6 is connected with the piston assembly 2 through a transmission assembly 7.

The piston assembly 2 comprises a servo motor 201, a first rotating wheel 202, a push-pull rod 203, a first piston cylinder 204, a first support rod 205, a first piston plate 206, a first connecting pipe 207, a second piston cylinder 208, a second support rod 209, a second piston plate 210, a rack 211, a second connecting pipe 212, a third piston cylinder 213, a third piston plate 214, a moving rod 215 and a third support rod 216;

the servo motor 201 is fixed on the upper part of the right side of the left side plate 102, and the front end of the servo motor 201 is connected with a first rotating wheel 202; the first piston cylinder 204 is horizontally arranged on the right side of the first rotating wheel 202, and the top of the first piston cylinder is connected with the top plate 103 through a first support rod 205; the first piston cylinder 204 is provided with a first piston plate 206 which moves left and right; the left end of the push-pull rod 203 is hinged with the eccentric position of the disc surface of the first rotating wheel 202, and the right end of the push-pull rod extends into the first piston cylinder 204 and is hinged with the left side of the first piston plate 206;

the second piston cylinder 208 is arranged on the right side of the first piston cylinder 204, and the top of the second piston cylinder is connected with the top plate 103 through a second support rod 209; the left end of the second piston cylinder 208 is communicated with the right end of the first piston cylinder 204 through a first connecting pipe 207, and the first connecting pipe 207 is provided with a valve; a second piston plate 210 moving left and right is arranged in the second piston cylinder 208, and a rack 211 is connected to the right side of the second piston plate 210;

the third piston cylinder 213 is arranged below the second piston cylinder 208 and is connected with the first piston cylinder 204 through a third support rod 216; the top end of the second piston cylinder 208 is communicated with the right end of the first piston cylinder 204 through a second connecting pipe 212, and a valve is arranged on the second connecting pipe 212; a third piston plate 214 which moves up and down is arranged in the third piston cylinder 213, and the bottom of the third piston plate 214 is connected with a moving rod 215;

the areas between piston plates # one 206, # two 210, and # three 204 are filled with fluid.

In particular, the device should be placed in a sterile environment to operate.

The valves of the first connecting pipe 207 and the second connecting pipe 212 are opened as required, the servo motor 201 is started to drive the first rotating wheel 202 to rotate, the push-pull rod 203 drives the first piston plate 206 to move left and right, the second piston plate 210 moves left and right due to pressure balance, and the third piston plate 214 moves up and down. The former is used as the power of the stirring component 3, and the latter is used as the power of the pumping component 5.

Wherein, the liquid reserve tank 4 sets up on placing the board 402, places the board 402 bottom symmetry and is connected with No. five branch 401, and No. five branch 401 bottom is connected with base 101.

Wherein, the stirring component 3 comprises a first gear 301, a first rotating shaft 302, a stirring rod 303, a horizontal plate 304 and a fourth supporting rod 305;

the right end of the rack 211 extends out of the second piston cylinder 208 and is matched with the first gear 301, and the first gear 301 is arranged at the top end of the first rotating shaft 302; a horizontal plate 304 is connected to the lower right part of the top plate 103 through a fourth support rod 305, and a first rotating shaft 302 penetrates through and is rotatably connected with the horizontal plate 304; the lower section of the first rotating shaft 302 extends into the liquid storage tank 4 and is uniformly connected with four support rods 305.

Specifically, rack 211 moves about along with No. two piston plates 210 to drive a gear 301 and take pivot 302 to rotate, make puddler 303 stir the drink in the liquid reserve tank 4, reduce and subside, improve the homogeneity of follow-up filling.

The pumping and draining assembly 5 comprises a piston cylinder 501, a piston plate 502, a liquid suction pipe 503, a liquid discharge pipe 506, a nozzle 507 and a support rod 508;

the fourth piston cylinder 501 is arranged below the third piston cylinder 213 and is connected with the first piston cylinder 204 through a sixth support rod 508; a fourth piston plate 502 which moves up and down is also arranged in the fourth piston cylinder 501, and the bottom end of the movable rod 215 extends into the fourth piston cylinder 501 and is connected with the fourth piston plate 502; the right side of the bottom end of the fourth piston cylinder 501 is connected with a pipette 503, and the pipette 503 is provided with a first check valve for controlling liquid to enter the fourth piston cylinder 501; the pipette 503 is inserted into the liquid storage tank 4; the left side of the bottom end of the fourth piston cylinder 501 is connected with a liquid discharge pipe 506, the liquid discharge pipe 506 is provided with a second check valve for controlling liquid to be discharged out of the fourth piston cylinder 501, and the outer end of the liquid discharge pipe 506 is downwards connected with a nozzle 507.

Wherein the pipette 503 is a flexible tube; the inner wall of the liquid storage tank 4 is uniformly provided with a fixing clamp 504, and the liquid suction pipe 503 passes through the fixing clamp 504 and extends to the lower part of the liquid storage tank 4; the drain 506 is a rigid pipe.

Specifically, the third piston plate 214 moves up and down along with the fourth piston plate 502, and drives the moving rod 215 to move up and down with respect to the fourth piston plate 502, so as to draw the beverage into the fourth piston cylinder 501 from the liquid storage tank 4 and discharge the beverage in cooperation with the check valves on both sides. Because the movement distance of the push-pull rod 203 with the first piston plate 206 is fixed, the movement distance of the third piston plate 214 is also fixed, and then the fourth piston plate 502 moves at a fixed distance, so that the fourth piston cylinder 501 completes the quantitative pumping and discharging of the beverage.

The switching component 6 comprises a second rotating shaft 601, a grooved wheel 602, a rotating disc 603, a placing groove 604, a dial 605, a third rotating shaft 606 and a first bevel gear 607;

the second rotating shaft 601 is vertically arranged, the bottom end of the second rotating shaft is rotatably connected with the base 101, and the top end of the second rotating shaft is coaxially connected with a rotating disc 603; a plurality of placing grooves 604 are uniformly arranged on the turntable 603 in the circumferential direction; a grooved wheel 602 is arranged on the second rotating shaft 601, and a driving plate 605 is matched on the left side of the grooved wheel 602; the dial 605 is arranged at the top end of the third rotating shaft 606, and the bottom end of the third rotating shaft 606 is also rotatably connected with the base 101; the third rotating shaft 606 is also provided with a first bevel gear 607.

The transmission assembly 7 comprises a mounting rod 701, a third rotating wheel 702, a third transmission belt 703, a third bevel gear 704, a fourth bevel gear 705, a fourth rotating shaft 706, a support 707 and a second bevel gear 708;

the mounting rod 701 is arranged at the left part of the base 101, the top end of the mounting rod 701 is provided with a third rotating wheel 702, and the third rotating wheel 702 is connected with the first rotating wheel 202 through a third driving belt 703; the third rotating wheel 702 is coaxially connected with a third bevel gear 704, and the third bevel gear 704 is vertically meshed with a fourth bevel gear 705; a fourth bevel gear 705 is arranged at the left end of the fourth rotating shaft 706; the fourth rotating shaft 706 penetrates through and is rotatably connected with a support 707, and the support 707 is fixed on the base 101; the second bevel gear 708 is arranged at the right end of the fourth rotating shaft 706, and the second bevel gear 708 is vertically meshed with the first bevel gear 607.

Specifically, a beverage bottle to be filled is placed in the placing groove 604; when the first rotating wheel 202 rotates, the third rotating wheel 702 is driven to rotate through the third transmission belt 703, the coaxial third bevel gear 704 is driven to rotate, the fourth rotating shaft 706 is driven to rotate through bevel gear transmission, the second bevel gear 708 at the right end is driven to rotate, the first bevel gear 607 drives the third rotating shaft 606 to rotate through bevel gear transmission, the groove wheel 602 is driven to intermittently rotate by the driving plate 605, the rotating disc 603 is driven to intermittently rotate through the second rotating shaft 601, and switching of different placing grooves 604 is achieved.

It should be noted that the switching of the placement tank 604 and the extraction of the extraction assembly 5 are coordinated:

when the pumping and draining assembly 5 drains, the turntable 603 stops rotating, and the nozzle 507 fills the opposite beverage bottle; when the pump and drain assembly 5 is pumping, the turntable 603 rotates to rotate the next empty beverage bottle below the nozzle 507.

Example 3

On the basis of the example 2, the method comprises the following steps of,

also comprises a lifting component 8; the lifting component 8 comprises a second type driving wheel 801, a second driving belt 802, a fifth rotating shaft 803 and a third gear 804;

the fifth support rod 401 consists of an internal thread pipe 4011 and a lifting screw 4012; the bottom end of the internal threaded pipe 4011 is rotatably connected with the base 101 through a bearing, the internal threaded pipe 4011 is correspondingly provided with a first-class driving wheel 4013 and is in transmission connection through a first driving belt 4014, and the internal threaded pipe 4011 on the right side is also provided with a second gear 4015; the lower section of the lifting screw 4012 is screwed with the internal thread pipe 4011, and the top end is fixedly connected with the placing plate 402; a fifth rotating shaft 803 is arranged on the right side of the placing plate 402, and the upper end and the lower end of the fifth rotating shaft are respectively connected with the horizontal plate 304 and the base 101 in a rotating manner; the lower section of the fifth rotating shaft 803 corresponding to the second gear 4015 is provided with a third gear 804, and the third gear 804 is meshed with the second gear 4015; the upper section of the fifth rotating shaft 803 and the first rotating shaft 302 are correspondingly provided with a second type driving wheel 801 which is in driving connection through a second driving belt 802.

Specifically, when a pivot 302 reciprocating rotation, still make No. five pivot 803 rotations through the transmission, and make the internal thread pipe 4011 on right side rotate through gear engagement, make two internal thread pipes 4011 all reciprocating rotation through the transmission equally, with lifting screw 4012 precession screw-out, place board 402 in the area and reciprocate, thereby make liquid reserve tank 4 and puddler 303 take place the relative displacement of vertical direction, enlarge the stirring region of puddler 303, further avoid the condition of subsiding to appear.

Example 4

On the basis of the example 3, the method comprises the following steps,

also comprises an adjusting component 9; the adjusting component 9 comprises a third connecting pipe 901, a fifth piston cylinder 902, a fifth piston plate 903, an adjusting screw 904 and a hand wheel 905;

the piston cylinder 902 No. five is arranged below the piston cylinder 204 No. one; the right end of the first piston cylinder 204 is communicated with the top of a fifth piston cylinder 902 through a third connecting pipe 901; a fifth piston plate 903 which moves up and down is arranged in the fifth piston cylinder 902; the adjusting screw 904 penetrates through and is in threaded connection with the bottom plate of the piston cylinder 902 No. five, the bottom end of the adjusting screw is provided with a hand wheel 905, and the top end of the adjusting screw extends into the piston cylinder 902 No. five and is rotatably connected with the piston plate 903 through a bearing.

Specifically, the adjustment screw 904 is rotated by the hand wheel 905, so that the adjustment screw 904 carries the fifth piston plate 903 to move up and down. The fifth piston cylinder has a flow dividing function, and the amount of liquid flowing into the third piston cylinder 213 is reduced. The position of the fifth piston plate 903 is adjusted as required, so that the displacement distance of the third piston plate 214 is changed, the extraction volume of the fourth piston cylinder 501 is changed, and the filling dosage is adjusted to adapt to different requirements.

It should be noted that the electrical components are provided with power supplies, and the control method is the prior art, and is unified here for avoiding the redundancy of description; and the present invention is primarily intended to protect mechanical devices, the control means and circuit connections will not be explained in detail herein.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (10)

1. The quantitative filling equipment for producing the ferment beverage comprises a frame (1), wherein the frame (1) comprises a base (101), a left side plate (102) and a top plate (103), the left ends of the base (101) and the top plate (103) are connected through the left side plate (102), and the quantitative filling equipment is characterized by further comprising a piston assembly (2), a stirring assembly (3), a pumping assembly (5), a transmission assembly (7) and a switching assembly (6);

a piston assembly (2) is arranged below the top plate (103), and a stirring assembly (3) is matched with the right side of the piston assembly (2); the liquid storage tank (4) is arranged at the right part of the base (101), and the lower section of the stirring component (3) extends into the liquid storage tank (4); the right side of the piston assembly (2) is also provided with a pumping and discharging assembly (5); the middle of the base (101) is provided with a switching component (6), and the switching component (6) is connected with the piston component (2) through a transmission component (7).

2. The quantitative filling device for ferment beverage production according to claim 1, wherein the piston assembly (2) comprises a servo motor (201), a first rotating wheel (202), a push-pull rod (203), a first piston cylinder (204), a first support rod (205), a first piston plate (206), a first connecting tube (207), a second piston cylinder (208), a second support rod (209), a second piston plate (210), a rack (211), a second connecting tube (212), a third piston cylinder (213), a third piston plate (214), a moving rod (215) and a third support rod (216);

the servo motor (201) is arranged at the upper part of the right side of the left side plate (102), and the front end of the servo motor (201) is connected with a first rotating wheel (202); the first piston cylinder (204) is horizontally arranged on the right side of the first rotating wheel (202), and the top of the first piston cylinder is connected with the top plate (103) through a first support rod (205); the first piston cylinder (204) is provided with a first piston plate (206) moving left and right; the left end of the push-pull rod (203) is hinged with the eccentric position of the disc surface of the first rotating wheel (202), and the right end of the push-pull rod extends into the first piston cylinder (204) and is hinged with the left side of the first piston plate (206);

the second piston cylinder (208) is arranged on the right side of the first piston cylinder (204), and the top of the second piston cylinder is connected with the top plate (103) through a second support rod (209); the left end of the second piston cylinder (208) is communicated with the right end of the first piston cylinder (204) through a first connecting pipe (207), and a valve is arranged on the first connecting pipe (207); a second piston plate (210) moving left and right is arranged in the second piston cylinder (208), and a rack (211) is connected to the right side of the second piston plate (210);

the third piston cylinder (213) is arranged below the second piston cylinder (208) and is connected with the first piston cylinder (204) through a third support rod (216); the top end of the second piston cylinder (208) is communicated with the right end of the first piston cylinder (204) through a second connecting pipe (212), and a valve is arranged on the second connecting pipe (212); a third piston plate (214) moving up and down is arranged in the third piston cylinder (213), and the bottom of the third piston plate (214) is connected with a moving rod (215);

the area between the first piston plate (206), the second piston plate (210) and the third piston plate (204) is filled with liquid.

3. The quantitative filling device for ferment beverage production according to claim 2, wherein the liquid storage tank (4) is disposed on the placing plate (402), the bottom of the placing plate (402) is symmetrically connected with five-number struts (401), and the bottom ends of the five-number struts (401) are connected with the base (101).

4. The quantitative filling apparatus for ferment beverage production according to claim 3, wherein the stirring assembly (3) comprises a first gear (301), a first rotating shaft (302), a stirring rod (303), a horizontal plate (304) and a fourth supporting rod (305);

the right end of the rack (211) extends out of the second piston cylinder (208) and is matched with the first gear (301), and the first gear (301) is arranged at the top end of the first rotating shaft (302); a horizontal plate (304) is connected to the lower part of the right part of the top plate (103) through a fourth support rod (305), and a first rotating shaft (302) penetrates through and is rotatably connected with the horizontal plate (304); the lower section of the first rotating shaft (302) extends into the liquid storage tank (4) and is uniformly provided with four support rods (305).

5. The quantitative filling apparatus for ferment beverage production according to claim 4, wherein the pumping and draining assembly (5) comprises a piston cylinder (501), a piston plate (502), a pipette (503), a drain pipe (506), a nozzle (507), and a support rod (508);

the fourth piston cylinder (501) is arranged below the third piston cylinder (213) and is connected with the first piston cylinder (204) through a sixth support rod (508); a fourth piston plate (502) which is movable up and down is also arranged in the fourth piston cylinder (501), and the bottom end of the movable rod (215) extends into the fourth piston cylinder (501) and is connected with the fourth piston plate (502); the right side of the bottom end of the fourth piston cylinder (501) is connected with a liquid suction pipe (503), and the liquid suction pipe (503) is provided with a first check valve for controlling liquid to enter the fourth piston cylinder (501); the pipette (503) extends into the liquid storage tank (4); the left side of the bottom end of the fourth piston cylinder (501) is connected with a liquid discharge pipe (506), the liquid discharge pipe (506) is provided with a second one-way valve for controlling liquid to be discharged out of the fourth piston cylinder (501), and the outer end of the liquid discharge pipe (506) is downwards connected with a nozzle (507).

6. The dosing and filling device for the production of enzymatic drinks according to claim 5, characterised in that said pipette (503) is a flexible tube; the inner wall of the liquid storage tank (4) is uniformly provided with fixing clamps (504), and the liquid suction pipe (503) penetrates through the fixing clamps (504) and extends to the lower part of the liquid storage tank (4); the liquid discharge pipe (506) is a hard pipe.

7. The quantitative filling device for ferment beverage production according to claim 6, wherein the switching assembly (6) comprises a second rotating shaft (601), a grooved wheel (602), a rotating disc (603), a placing groove (604), a driving disc (605), a third rotating shaft (606) and a first bevel gear (607);

the second rotating shaft (601) is vertically arranged, the bottom end of the second rotating shaft is rotatably connected with the base (101), and the top end of the second rotating shaft is coaxially connected with the rotating disc (603); a plurality of placing grooves (604) are uniformly arranged on the turntable (603) in the circumferential direction; a grooved wheel (602) is arranged on the second rotating shaft (601), and a driving plate (605) is matched on the left side of the grooved wheel (602); the dial (605) is arranged at the top end of the third rotating shaft (606), and the bottom end of the third rotating shaft (606) is also rotationally connected with the base (101); and a first bevel gear (607) is also arranged on the third rotating shaft (606).

8. The quantitative filling device for ferment beverage production according to claim 7, wherein the transmission assembly (7) comprises a mounting rod (701), a third rotating wheel (702), a third driving belt (703), a third bevel gear (704), a fourth bevel gear (705), a fourth rotating shaft (706), a support (707) and a second bevel gear (708);

the mounting rod (701) is arranged at the left part of the base (101), a third rotating wheel (702) is arranged at the top end of the mounting rod (701), and the third rotating wheel (702) is connected with the first rotating wheel (202) through a third driving belt (703); the third rotating wheel (702) is coaxially connected with a third bevel gear (704), and a fourth bevel gear (705) is vertically meshed with the third bevel gear (704); the fourth bevel gear (705) is arranged at the left end of the fourth rotating shaft (706); the fourth rotating shaft (706) penetrates through and is rotatably connected with the support (707), and the support (707) is fixed on the base (101); a second bevel gear (708) is arranged at the right end of the fourth rotating shaft (706), and the second bevel gear (708) is vertically meshed with the first bevel gear (607).

9. The dosing and filling device for the production of enzymatic drinks according to claim 8, further comprising a lifting assembly (8); the lifting assembly (8) comprises a second type transmission wheel (801), a second transmission belt (802), a fifth rotating shaft (803) and a third gear (804);

the fifth support rod (401) consists of an internal threaded pipe (4011) and a lifting screw rod (4012); the bottom end of the internal threaded pipe (4011) is rotatably connected with the base (101) through a bearing, the internal threaded pipe (4011) is correspondingly provided with a first-class driving wheel (4013) and is in transmission connection through a first driving belt (4014), and the internal threaded pipe (4011) on the right side is also provided with a second gear (4015); the lower section of the lifting screw rod (4012) is screwed with an internal threaded pipe (4011), and the top end of the lifting screw rod is fixedly connected with a placing plate (402); the fifth rotating shaft (803) is arranged on the right side of the placing plate (402), and the upper end and the lower end of the fifth rotating shaft are respectively connected with the horizontal plate (304) and the base (101) in a rotating manner; the lower section of the fifth rotating shaft (803) is provided with a third gear (804) corresponding to the second gear (4015), and the third gear (804) is meshed with the second gear (4015); the upper section of the fifth rotating shaft (803) and the first rotating shaft (302) are correspondingly provided with a second type of driving wheels (801) which are in driving connection through a second type of driving belt (802).

10. The dosing and filling apparatus for the production of enzymatic drinks according to claim 9, further comprising an adjustment assembly (9); the adjusting assembly (9) comprises a third connecting pipe (901), a fifth piston cylinder (902), a fifth piston plate (903), an adjusting screw rod (904) and a hand wheel (905);

the fifth piston cylinder (902) is arranged below the first piston cylinder (204); the right end of the first piston cylinder (204) is communicated with the top of the fifth piston cylinder (902) through a third connecting pipe (901); a fifth piston plate (903) which moves up and down is arranged in the fifth piston cylinder (902); the adjusting screw rod (904) penetrates through and is in threaded connection with a bottom plate of the fifth piston cylinder (902), a hand wheel (905) is arranged at the bottom end of the adjusting screw rod, and the top end of the adjusting screw rod extends into the fifth piston cylinder (902) and is rotatably connected with a fifth piston plate (903) through a bearing.

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