CN111001320A - Blending device is used in production of ferment milk tea that homogeneity is high - Google Patents

Abstract

The invention relates to the technical field of ferment beverage production and preparation, in particular to a blending device for producing ferment milk tea with high uniformity; an electric push rod is adopted to stretch and drive a first rack to move up and down, the first rack drives a large gear to rotate, the large gear enables a small gear to rotate through meshing action, the small gear drives a short rocker to rotate, a second sliding sleeve moves along a long rocker and drives the long rocker to swing left and right, a push-pull rod drives a first sliding block to move left and right along a first sliding rail through matching of a linear hole and a sliding shaft, and a stirring shaft moves along with the first sliding rail, so that a stirring area in the left and right directions of a stirring rod is changed; when the first rack moves up and down, the first rope tying ring is acted by the first pull rope, so that the first rope tying ring moves up and down along the slide rod, the preparation box moves up and down, and the stirring area of the stirring rod in the up-and-down direction is changed.

Description

Blending device is used in production of ferment milk tea that homogeneity is high

Technical Field

The invention relates to the technical field of ferment beverage production and preparation, and particularly relates to a blending device for producing ferment milk tea with high uniformity.

Background

The milk tea is originally a daily drink for nomadic nationalities in Mongolian plateau and has at least one thousand years of history up to now. The Mongolia plateau is the hometown of nomadic nationalities and is also the origin of milk tea, and the Mongolia milk tea is the most authentic at first. From the Yuan Dynasty, the milk tea is spread all over the world, and at present, different kinds of milk tea are popular in Dazhonghua areas, China and Asia, India, Arabia, England, Malaysia, Singapore and other areas.

Nowadays, with the improvement of living standard of people, the requirements on milk tea drinks also begin to pursue the effects of being healthier and more health preserving. The ferment milk tea is gradually developed along with the trend.

The ferment milk tea is the milk tea added with ferment ingredients as the name implies. Enzyme, Enzyme in English, is old translation of Enzyme. The human body is composed of cells, and each cell exhibits various vital activities due to the presence of enzymes, so that metabolism in the human body can be performed. The enzyme is a catalyst for metabolism in a human body, and various biochemical reactions can be carried out in the human body only if the enzyme exists. The more enzymes in the human body, the more complete the enzyme is, and the healthier the life is. When the human body does not contain active ferment, the life is greatly threatened. Human diseases are mostly related to the lack, utilization or synthesis disorder of enzyme, and enzyme powder supplement is one of the important contents in health care and health preservation at present.

The ferment powder is obtained from various plants, fruits and seeds and contains various edible ferment, and is prepared by adding wheat flour etc. into ferment stock solution, coagulating and adsorbing. Such as: polysaccharide ferment, probiotic ferment, proteolytic ferment, lipolytic ferment, amylolytic ferment, papain, bromelain, chlorophyll, various natural vitamins, minerals, trace elements, etc.

After entering a human body, the ferment powder can be quickly absorbed and utilized by the human body, does not increase the gastrointestinal burden, and has an anti-inflammatory effect on ulcer diseases; and become a necessity for cellular activities, particularly brain cell activities; it can improve body constitution and prevent various diseases. The ferment powder has no harm to human body and no accumulation in vivo, so it can be taken for a long time.

When the ferment milk tea is produced, the ferment powder and other raw materials need to be dissolved in a solvent, and due to different dissolving power, the conditions of nonuniform layering, bottom sedimentation and the like are easy to occur during preparation. Needs to adopt a stirring mode to accelerate dissolution and homogenize a finished product, but the stirring position in the prior art is single and fixed, and the solution effect on layering and sedimentation is not good.

Therefore, need design the high ferment milk tea of homogeneity and use blending device, solve above-mentioned problem.

Disclosure of Invention

Technical problem to be solved

The invention aims to overcome the defects in the prior art and provides a blending device for producing ferment milk tea with high uniformity.

(II) technical scheme

A blending device for producing ferment milk tea with high uniformity comprises a frame, a telescopic component, a swinging component, a lifting component and a stirring component;

the frame comprises a base, a sliding rod, a side plate, a top plate and a preparation box, wherein the right end of the base is vertically connected with the sliding rod, the top end of the sliding rod is connected with the vertical side plate, and the top end of the side plate is connected with the top plate leftwards; the preparation box is arranged above the base, and a supporting spring is connected between the bottom of the preparation box and the base; the right side of the preparation box is connected with a third sliding sleeve through a second connecting rod, and the third sliding sleeve is sleeved with a sliding rod; the telescopic component is arranged at the left part of the top plate, the left side of the telescopic component is provided with the swinging component, and the right side of the telescopic component is provided with the lifting component; a stirring component is arranged below the top plate, and the bottom end of the swinging component is matched with the stirring component; the bottom end of the lifting component is connected with a third sliding sleeve.

Preferably, the telescopic assembly comprises an electric push rod, a first rack, a first connecting rod, a first sliding sleeve and a first support rod;

the electric push rod is vertically fixed on the top plate, and the top end of the electric push rod is connected with a first rack; the tooth surface of the first rack faces to the left side; the first supporting rod is arranged on the right side of the electric push rod and is fixedly connected to the top plate; a sliding sleeve is sleeved on the first supporting rod, and the first sliding sleeve is connected with the first rack through a first connecting rod.

Preferably, the swinging assembly comprises a second support rod, a third support rod, a large gear, a small gear, a short rocker, a second sliding sleeve, a long rocker, an end plate, a return spring and a straight hole;

the second support rod is arranged on the left side of the electric push rod and is fixedly connected to the top plate; the third supporting rod is fixedly connected to the right side of the second supporting rod, and the right end of the third supporting rod is provided with a large gear; the large gear is meshed with the first rack; the upper section of the second support rod is provided with a pinion which is meshed with the bull gear; one end of the short rocker is coaxially connected with the pinion, and the other end of the short rocker is hinged with a second sliding sleeve; the top end of the long rocker is provided with an end plate, the middle section of the long rocker is hinged with the lower section of the second support rod, and the lower section of the long rocker extends to the lower part of the top plate and is provided with a straight hole; the second sliding sleeve is sleeved on the upper section of the long rocker, and a return spring is connected between the second sliding sleeve and the end plate.

Preferably, the stirring assembly comprises a first sliding rail, a first sliding block, a push-pull rod, a sliding shaft, a stirring shaft and a stirring rod;

the first sliding rail is arranged on the bottom surface of the top plate in the left-right direction, and the first sliding block is connected with the first sliding rail in a sliding manner; the right end of the push-pull rod is hinged with the first sliding block, the front side of the left end of the push-pull rod is connected with a sliding shaft, and the sliding shaft is matched with the linear hole; the bottom of the first sliding block is provided with a stirring shaft, and the lower section of the stirring shaft extends into the pouring preparation box and is uniformly provided with stirring rods.

Preferably, the lifting assembly comprises a first rope tying ring, a first pulling rope, a first wire guide wheel, a second wire guide wheel and a second rope tying ring;

the first rope tying ring is arranged on the right side of the third sliding sleeve, and the second rope tying ring is arranged on the right side of the first rack; a first wire guide wheel is arranged at the top end of the first supporting rod; a second wire guide wheel is arranged at the right end of the top plate; the top end of the first pull rope is connected with a second rope tying ring, and the bottom end of the first pull rope is connected with the first rope tying ring after bypassing the first wire guide wheel and the second wire guide wheel.

Preferably, the device further comprises a rotating assembly; the rotating assembly comprises a second rack, a driven gear, a telescopic spring and a small ball;

the second rack is horizontally arranged below the first sliding block, and the right end of the second rack is fixedly connected with the side plate; the top end of the stirring shaft is rotationally connected with a first sliding block through a bearing; a driven gear is arranged on the upper section of the stirring shaft and meshed with the second rack; the outer end of the stirring rod is connected with a small ball through a telescopic spring.

Preferably, the inner bottom of the preparation box is provided with an inclined plane with a lower left and a higher right, the lower side of the preparation box is connected with a liquid discharge pipe, and the bottom end of the liquid discharge pipe is provided with a liquid discharge valve.

Preferably, the liquid spraying device further comprises a liquid returning assembly and a liquid spraying assembly;

the liquid return component is arranged on the left side of the preparation box; the liquid sprinkling assembly is arranged below the second rack; the liquid return component is matched with the liquid sprinkling component.

Preferably, the liquid return assembly comprises a third rope fastening ring, a second pull rope, a third wire guide wheel, a piston cylinder, a piston plate, a compression spring, a liquid suction pipe, a liquid return pipe and a fourth support rod;

the piston cylinder is fixed on the left side of the preparation box through a fourth support rod; a piston plate which moves left and right is arranged in the piston cylinder, and the piston plate and the left end of the piston cylinder are connected with a compression spring; one end of the second pull rope is connected with the left side of the piston plate, and the other end of the second pull rope extends out of the piston cylinder; a third wire guide wheel is arranged at the left end of the piston cylinder, and a second pull rope rounds the third wire guide wheel and then extends downwards and is connected with a third rope tying ring fixed on the base; the bottom of the right end of the piston cylinder is connected with a liquid suction pipe; the liquid suction pipe is communicated with the middle section of the liquid discharge pipe; the pipette is provided with a one-way valve for controlling the fluid to fall into the piston cylinder; the top end of the right end of the piston cylinder is connected with a liquid return pipe, and a second check valve for controlling the fluid to fall into the piston cylinder is arranged on the liquid return pipe.

Preferably, the liquid sprinkling assembly comprises a second sliding rail, a third connecting rod, a second sliding block, a fourth connecting rod, a liquid storage ring, a liquid outlet pipe, a connector and a flexible pipe;

the second sliding rail is arranged below the second rack in parallel and is connected with the second rack through a third connecting rod; the second sliding block is connected with the second sliding rail in a sliding manner; the bottom of the second sliding block is connected with the liquid storage ring through a fourth connecting rod; the liquid storage ring is of a hollow annular structure, is sleeved on the stirring shaft and is rotationally connected with the stirring shaft through a bearing; the outer side wall of the liquid storage pipe is provided with a joint, one end of the soft pipe is connected with the joint, and the other end of the soft pipe is connected with the liquid return pipe; the liquid storage ring bottom circumference evenly is provided with the drain pipe, and the drain pipe corresponds the stirring rod setting.

(III) advantageous effects

The invention provides a blending device for producing ferment milk tea with high uniformity, which has the following advantages:

1, adopt the flexible rack of drive of electric putter to reciprocate, rack drive gear wheel rotates No. one, the gear wheel makes the pinion produce through the meshing effect and rotates, the pinion area takes short rocker to rotate, make No. two sliding sleeves remove and take long rocker to do the horizontal hunting along long rocker, and through the cooperation of a word hole and sliding shaft, make the push-and-pull rod take a slider to remove along a slide rail and remove about, and then make the (mixing) shaft follow and remove, thereby change the stirring area on the stirring rod left and right sides direction.

2, when the first rack moves up and down, the first rope tying ring is acted by the first pull rope, so that the first rope tying ring moves up and down along the slide rod, the preparation box moves up and down, and the stirring area of the stirring rod in the up-and-down direction is changed.

3, a rotating assembly is further arranged, the first sliding block drives the stirring shaft to move left and right, and the driven gear is driven by the second rack, so that the stirring shaft drives the stirring rod to rotate, and the stirring strength is improved; the telescopic spring drives the small ball to shake along with the rotation of the stirring rod, so that the stirring effect is enhanced.

4, a liquid return assembly and a liquid spraying assembly are further arranged, the piston cylinder moves up and down along with the preparation box, the second pull rope is matched with the compression spring to act on the piston plate, the piston plate moves left and right, and the sedimentation slurry at the bottom of the preparation box is pumped into the liquid storage ring again and discharged from the liquid outlet pipe by matching with the two one-way valves, falls into the stirring rod area, is beaten by the stirring rod and is stirred, so that the dissolution is accelerated; and the liquid returning process is matched, so that the integral uniformity is improved.

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 telescoping assembly and the pulling assembly;

FIG. 4 is a block diagram of the wobble assembly and the agitation assembly;

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

FIG. 6 is a bottom view of the liquid return assembly;

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

FIG. 8 is a block diagram of another view of the sprinkler assembly;

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

1-frame, 101-base, 102-slide bar, 103-side plate, 104-top plate;

2-telescopic assembly, 201-electric push rod, 202-first rack, 203-first connecting rod, 204-first sliding sleeve and 205-first support rod;

3-rocking component, 301-second pole support, 302-third pole support, 303-big gear, 304-small gear, 305-short rocker, 306-second sliding sleeve, 307-long rocker, 308-end plate, 309-reset spring, 310-straight hole;

4-pulling assembly, 403-first tether ring, 404-first pull rope, 405-first wire guide wheel, 406-second wire guide wheel, 407-second tether ring;

5-a preparation box, 501-a support spring, 502-a liquid discharge pipe, 503-an inclined plane, 504-a second connecting rod and 505-a third sliding sleeve;

6-stirring component 601-first slide rail, 602-first slide block, 603-push-pull rod, 604-slide shaft, 605-stirring shaft, 606-stirring rod, 607-expansion spring and 608-small ball;

7-rotating component, 701-second rack, 702-driven gear;

8-liquid return assembly, 801-third rope fastening ring, 802-second pull rope, 803-third wire guide wheel, 804-piston cylinder, 805-piston plate, 806-compression spring, 807-liquid suction pipe, 808-liquid return pipe and 809-fourth support rod;

9-sprinkling assembly, 901-second slide rail, 902-third connecting rod, 903-second slide block, 904-fourth connecting rod, 905-liquid storage ring, 906-liquid outlet pipe, 907-joint and 908-flexible pipe.

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 blending device for producing the ferment milk tea with high uniformity comprises a frame 1, a telescopic component 2, a swinging component 3, a lifting component 4 and a stirring component 6;

the frame 1 comprises a base 101, a slide bar 102, a side plate 103, a top plate 104 and a preparation box 5, wherein the right end of the base 101 is vertically connected with the slide bar 102, the top end of the slide bar 102 is connected with the vertical side plate 103, and the top end of the side plate 103 is connected with the top plate 104 leftwards; the preparation box 5 is arranged above the base 101, and a supporting spring 501 is connected between the bottom of the preparation box and the base 101; the right side of the preparation box 5 is connected with a third sliding sleeve 505 through a second connecting rod 504, and the third sliding sleeve 505 is sleeved with the sliding rod 102; the telescopic component 2 is arranged at the left part of the top plate 104, the swinging component 3 is arranged at the left side of the telescopic component 2, and the lifting component 4 is arranged at the right side; a stirring component 6 is arranged below the top plate 104, and the bottom end of the swinging component 3 is matched with the stirring component 6; the bottom end of the pulling assembly 4 is connected with a third sliding sleeve 505.

Example 2

Referring to the attached drawings, the blending device for producing the ferment milk tea with high uniformity comprises a frame 1, a telescopic component 2, a swinging component 3, a lifting component 4 and a stirring component 6;

the frame 1 comprises a base 101, a slide bar 102, a side plate 103, a top plate 104 and a preparation box 5, wherein the right end of the base 101 is vertically connected with the slide bar 102, the top end of the slide bar 102 is connected with the vertical side plate 103, and the top end of the side plate 103 is connected with the top plate 104 leftwards; the preparation box 5 is arranged above the base 101, and a supporting spring 501 is connected between the bottom of the preparation box and the base 101; the right side of the preparation box 5 is connected with a third sliding sleeve 505 through a second connecting rod 504, and the third sliding sleeve 505 is sleeved with the sliding rod 102; the telescopic component 2 is arranged at the left part of the top plate 104, the swinging component 3 is arranged at the left side of the telescopic component 2, and the lifting component 4 is arranged at the right side; a stirring component 6 is arranged below the top plate 104, and the bottom end of the swinging component 3 is matched with the stirring component 6; the bottom end of the pulling assembly 4 is connected with a third sliding sleeve 505.

The telescopic assembly 2 comprises an electric push rod 201, a first rack 202, a first connecting rod 203, a first sliding sleeve 204 and a first support rod 205;

the electric push rod 201 is vertically fixed on the top plate 104, and the top end of the electric push rod is connected with a first rack 202; the teeth of the first rack 202 face to the left; the first support rod 205 is arranged on the right side of the electric push rod 201 and is fixedly connected to the top plate 104; a sliding sleeve 204 is sleeved on the first support rod 205, and the first sliding sleeve 204 is connected with the first rack 202 through a first connecting rod 203.

Specifically, the electric push rod 201 is started to stretch, and the first rack 202 moves up and down along with the push-pull of the electric push rod 201 and under the guidance of the sliding sleeve sliding rod.

The swinging assembly 3 comprises a second support rod 301, a third support rod 302, a large gear 303, a small gear 304, a short rocker 305, a second sliding sleeve 306, a long rocker 307, an end plate 308, a return spring 309 and a straight hole 310;

the second support rod 301 is arranged on the left side of the electric push rod 201 and is fixedly connected to the top plate 104; the third supporting rod 302 is fixedly connected to the right side of the second supporting rod 301, and the right end of the third supporting rod is provided with a large gear 303; the large gear 303 is meshed with the first rack 202; the upper section of the second support rod 301 is provided with a pinion 304, and the pinion 304 is meshed with the bull gear 303; one end of the short rocker 305 is coaxially connected with the pinion 304, and the other end is hinged with a second sliding sleeve 306; the top end of the long rocker 307 is fixedly connected with an end plate 308, the middle section of the long rocker is hinged with the lower section of the second supporting rod 301, and the lower section of the long rocker extends to the lower part of the top plate 104 and is provided with a straight hole 310; the second sliding sleeve 306 is sleeved on the upper section of the long rocker 307, and a return spring 309 is connected between the second sliding sleeve 306 and the end plate 308.

Specifically, the first rack 202 moves up and down and drives the large gear 303 to rotate, the large gear 303 rotates the small gear 304 through meshing action, the small gear 304 drives the short rocker 305 to rotate, and the second sliding sleeve 306 moves along the long rocker 307 and drives the long rocker 307 to perform swinging motion. The large gear 303 to the small gear 304 move in an accelerating manner, so that the rotation angle and the rotation speed of the small gear 304 are increased, the long rocker 307 can swing greatly, and sufficient left-right displacement driving is provided for the subsequent stirring assembly 6.

The stirring assembly 6 comprises a first sliding rail 601, a first sliding block 602, a push-pull rod 603, a sliding shaft 604, a stirring shaft 605 and a stirring rod 606;

the first sliding rail 601 is arranged on the bottom surface of the top plate 104 in the left-right direction, and the first sliding block 602 is connected with the first sliding rail 601 in a sliding manner; the right end of the push-pull rod 603 is hinged with the first sliding block 602, the front side of the left end is connected with a sliding shaft 604, and the sliding shaft 604 is matched with the straight hole 310; the bottom of the first sliding block 602 is provided with a stirring shaft 605, and the lower section of the stirring shaft 605 extends into the pouring box 5 and is uniformly connected with stirring rods 606.

Specifically, the long rocker 307 swings left and right, and through the cooperation between the slotted hole 310 and the sliding shaft 604, the push-pull rod 603 drives the first sliding block 602 to move left and right along the first sliding rail 601, so that the stirring shaft 605 moves along with the first sliding block, thereby changing the stirring area in the left and right directions of the stirring rod 606.

Wherein, the pulling assembly 4 comprises a first tether ring 403, a first pulling rope 404, a first wire guide wheel 405, a second wire guide wheel 406 and a second tether ring 407;

the first tether ring 403 is fixed on the right side of the third sliding sleeve 505, and the second tether ring 407 is fixed on the right side of the first rack 202; the top end of the first supporting rod 205 is provided with a first wire guide wheel 405; a second wire guide wheel 406 is arranged at the right end of the top plate 104; the top end of the first pull rope 404 is connected with a second tether ring 407, and the bottom end of the first pull rope passes through the first wire guide wheel 405 and the second wire guide wheel 406 and then is connected with the first tether ring 403.

Specifically, when the first rack 202 moves up and down, the first rope 404 acts on the first rope 403, so that the first rope 403 moves up and down along the slide rod 102, the preparation box 5 moves up and down, and the stirring area of the stirring rod 606 in the up-and-down direction is changed.

The prepared raw materials are put into the preparation box 5, the electric push rod 201 is started and is adjusted to stretch, the raw materials are stirred uniformly without dead angles, layering and sedimentation are avoided, the uniformity of finished products is guaranteed, and the quality of the finished products is improved.

Example 3

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

also comprises a rotating component 7; the rotating assembly 7 comprises a second rack 701, a driven gear 702, a telescopic spring 607 and a small ball 608;

the second rack 701 is horizontally arranged below the first sliding block 602, and the right end of the second rack is fixedly connected with the side plate 103; the top end of the stirring shaft 605 is rotationally connected with the first sliding block 602 through a bearing; a driven gear 702 is arranged on the upper section of the stirring shaft 605, and the driven gear 702 is meshed with a second rack 701; the outer end of the stirring rod 606 is connected with a small ball 608 through a telescopic spring 607.

Specifically, when the first sliding block 602 drives the stirring shaft 605 to move left and right, the driven gear 702 is driven by the second rack 701, so that the stirring shaft 605 drives the stirring rod 606 to rotate, and the stirring strength is improved; the extension spring 607 drives the small ball 608 to shake along with the rotation of the stirring rod 606, so that the stirring effect is enhanced.

Wherein, the inner bottom of the preparation box 5 is provided with a slope 503 with a lower left and a higher right, the lower side is connected with a drain pipe 502, and the bottom end of the drain pipe 502 is provided with a drain valve.

Specifically, the inclined plane 503 guides the flow directly, and after the preparation is completed, the liquid can be discharged by opening a liquid discharge valve.

Example 4

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

the device also comprises a liquid return component 8 and a liquid sprinkling component 9;

the liquid return component 8 is arranged on the left side of the preparation box 5; the liquid sprinkling assembly 9 is arranged below the second rack 701; the liquid return assembly 8 is matched with the liquid sprinkling assembly 9.

The liquid returning assembly 8 comprises a third rope fastening ring 801, a second pull rope 802, a third wire guide wheel 803, a piston cylinder 804, a piston plate 805, a compression spring 806, a liquid suction pipe 807, a liquid returning pipe 808 and a fourth support rod 809;

the piston cylinder 804 is fixed on the left side of the preparation box 5 through a fourth support rod 809; a piston plate 805 which can move left and right is arranged in the piston cylinder 804, and the left ends of the piston plate 805 and the piston cylinder 804 are connected with a compression spring 806; one end of a second pull rope 802 is connected with the left side of the piston plate 805, and the other end of the second pull rope extends out of the piston cylinder 804; a third wire guide wheel 803 is arranged at the left end of the piston cylinder 804, and a second pull rope 802 rounds the third wire guide wheel 803 and extends downwards to be connected with a third tether ring 801 fixed on the base 101; a liquid suction pipe 807 is connected with the bottom of the right end of the piston cylinder 804; the liquid suction pipe 807 is communicated with the middle section of the liquid discharge pipe 502; the pipette 807 is provided with a one-way valve for controlling the fluid to fall into the piston cylinder 804; the top end of the right end of the piston cylinder 804 is connected with a liquid return pipe 808, and the liquid return pipe 808 is provided with a second check valve for controlling fluid to fall into the piston cylinder 804.

Specifically, the piston cylinder 804 moves up and down along with the preparation tank 5, so that the second pull rope 802 cooperates with the compression spring 806 to act on the piston plate 805, the piston plate 805 moves left and right, and cooperates with the two check valves to re-extract the sedimentation slurry at the bottom of the preparation tank 5 to the upper side and discharge the sedimentation slurry into the liquid spraying assembly 9.

The liquid sprinkling assembly 9 comprises a second sliding rail 901, a third connecting rod 902, a second sliding block 903, a fourth connecting rod 904, a liquid storage ring 905, a liquid outlet pipe 906, a connector 907 and a soft pipe 908;

the second sliding rail 901 is arranged below the second rack 701 in parallel and is connected with the second rack 701 through a third connecting rod 902; the second sliding block 903 is connected with the second sliding rail 901 in a sliding manner; the bottom of the second sliding block 903 is connected with a liquid storage ring 905 through a fourth connecting rod 904; the liquid storage ring 905 is of a hollow annular structure, is sleeved on the stirring shaft 605 and is rotationally connected with the stirring shaft 605 through a bearing; the outer side wall of the liquid storage pipe is connected with a connector 907, one end of a soft pipe 908 is connected with the connector 907, and the other end of the soft pipe is connected with a liquid return pipe 808; the bottom of the liquid storage ring 905 is circumferentially and uniformly connected with liquid outlet pipes 906, and the liquid outlet pipes 906 are arranged corresponding to the stirring rods 606.

Specifically, stock solution ring 905 receives slider slide rail support and direction, also follows (mixing) shaft 605 and removes about to utilize the bearing to avoid (mixing) shaft 605 to rotate the influence to stock solution ring 905 motion. The settled slurry at the bottom of the preparation box 5 is pumped into a liquid storage ring 905 and discharged from a liquid outlet pipe 906, falls into the area of the stirring rod 606, is beaten and stirred by the stirring rod 606, and is dissolved rapidly; and the liquid returning process is matched, so that the integral uniformity is improved.

The electrical components are provided with power supplies which are controlled in the prior art in such a way that they are described in the text in order to avoid redundancy; 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. A blending device for producing ferment milk tea with high uniformity comprises a frame (1), and is characterized by further comprising a telescopic component (2), a swinging component (3), a lifting component (4) and a stirring component (6);

the frame (1) comprises a base (101), a sliding rod (102), a side plate (103), a top plate (104) and a preparation box (5), the sliding rod (102) is vertically connected to the right end of the base (101), the vertical side plate (103) is connected to the top end of the sliding rod (102), and the top plate (104) is connected to the left side of the top end of the side plate (103); the preparation box (5) is arranged above the base (101), and a supporting spring (501) is connected between the bottom of the preparation box and the base (101); the right side of the preparation box (5) is connected with a third sliding sleeve (505) through a second connecting rod (504), and the third sliding sleeve (505) is sleeved with the sliding rod (102); the telescopic component (2) is arranged at the left part of the top plate (104), the left side of the telescopic component (2) is provided with the swinging component (3), and the right side is provided with the lifting component (4); a stirring assembly (6) is arranged below the top plate (104), and the bottom end of the swinging assembly (3) is matched with the stirring assembly (6); the bottom end of the lifting component (4) is connected with a third sliding sleeve (505).

2. The blending device for producing ferment milk tea with high uniformity according to claim 1, wherein the telescopic assembly (2) comprises an electric push rod (201), a first rack (202), a first connecting rod (203), a first sliding sleeve (204) and a first support rod (205);

the electric push rod (201) is vertically fixed on the top plate (104), and the top end of the electric push rod is connected with a first rack (202); the tooth surfaces of the first rack (202) face to the left side; the first support rod (205) is arranged on the right side of the electric push rod (201) and is fixedly connected to the top plate (104); a sliding sleeve (204) is sleeved on the first supporting rod (205), and the sliding sleeve (204) and the first rack (202) are connected through a first connecting rod (203).

3. The blending device for producing enzyme milk tea with high uniformity according to claim 2, wherein the swing assembly (3) comprises a second support rod (301), a third support rod (302), a large gear (303), a small gear (304), a short rocker (305), a second sliding sleeve (306), a long rocker (307), an end plate (308), a return spring (309) and a straight hole (310);

the second support rod (301) is arranged on the left side of the electric push rod (201) and is fixedly connected to the top plate (104); the third supporting rod (302) is fixedly connected to the right side of the second supporting rod (301), and the right end of the third supporting rod is provided with a large gear (303); the large gear (303) is meshed with the first rack (202); the upper section of the second support rod (301) is provided with a pinion (304), and the pinion (304) is meshed with the gearwheel (303); one end of the short rocker (305) is coaxially connected with the pinion (304), and the other end of the short rocker is hinged with a second sliding sleeve (306); the top end of the long rocker (307) is provided with an end plate (308), the middle section of the long rocker is hinged with the lower section of the second support rod (301), and the lower section of the long rocker extends to the lower part of the top plate (104) and is provided with a straight hole (310); the second sliding sleeve (306) is sleeved on the upper section of the long rocker (307), and a return spring (309) is connected between the second sliding sleeve (306) and the end plate (308).

4. The blending device for producing the ferment milk tea with high uniformity according to claim 3, wherein the stirring assembly (6) comprises a first sliding rail (601), a first sliding block (602), a push-pull rod (603), a sliding shaft (604), a stirring shaft (605) and a stirring rod (606);

the first sliding rail (601) is arranged on the bottom surface of the top plate (104) in the left-right direction, and the first sliding block (602) is connected with the first sliding rail (601) in a sliding manner; the right end of the push-pull rod (603) is hinged with the first sliding block (602), the front side of the left end is connected with a sliding shaft (604), and the sliding shaft (604) is matched with the straight hole (310); the bottom of the first sliding block (602) is provided with a stirring shaft (605), and the lower section of the stirring shaft (605) extends into the pouring box (5) and is uniformly provided with stirring rods (606).

5. The blending device for producing enzyme milk tea with high uniformity according to claim 4, wherein the lifting assembly (4) comprises a first rope fastening ring (403), a first rope (404), a first wire guiding wheel (405), a second wire guiding wheel (406) and a second rope fastening ring (407);

the first tether ring (403) is arranged on the right side of the third sliding sleeve (505), and the second tether ring (407) is arranged on the right side of the first rack (202); a first wire guide wheel (405) is arranged at the top end of the first support rod (205); a second wire guide wheel (406) is arranged at the right end of the top plate (104); the top end of the first pull rope (404) is connected with a second rope tying ring (407), and the bottom end of the first pull rope is connected with the first rope tying ring (403) after passing around the first wire guide wheel (405) and the second wire guide wheel (406).

6. The blending device for producing ferment milk tea with high uniformity according to claim 5, further comprising a rotating component (7); the rotating assembly (7) comprises a second rack (701), a driven gear (702), a telescopic spring (607) and a small ball (608);

the second rack (701) is horizontally arranged below the first sliding block (602), and the right end of the second rack is fixedly connected with the side plate (103); the top end of the stirring shaft (605) is rotationally connected with a first sliding block (602) through a bearing; a driven gear (702) is arranged on the upper section of the stirring shaft (605), and the driven gear (702) is meshed with a second rack (701); the outer end of the stirring rod (606) is connected with a small ball (608) through a telescopic spring (607).

7. The blending device for producing the ferment milk tea with high uniformity according to claim 6, wherein the inner bottom of the blending box (5) is provided with a slope (503) with a lower left and a higher right, the lower side of the blending box is connected with a drain pipe (502), and the bottom end of the drain pipe (502) is provided with a drain valve.

8. The blending device for producing the ferment milk tea with high uniformity according to claim 7, further comprising a liquid returning component (8) and a liquid spraying component (9);

the liquid return assembly (8) is arranged on the left side of the preparation box (5); the liquid sprinkling assembly (9) is arranged below the second rack (701); the liquid return assembly (8) is matched with the liquid sprinkling assembly (9).

9. The blending device for producing the ferment milk tea with high uniformity according to claim 8, wherein the liquid returning component (8) comprises a third tether ring (801), a second draw rope (802), a third wire guide wheel (803), a piston cylinder (804), a piston plate (805), a compression spring (806), a liquid suction pipe (807), a liquid returning pipe (808) and a fourth support rod (809);

the piston cylinder (804) is fixed on the left side of the preparation box (5) through a fourth support rod (809); a piston plate (805) which moves left and right is arranged in the piston cylinder (804), and the piston plate (805) and the left end of the piston cylinder (804) are connected with a compression spring (806); one end of the second pull rope (802) is connected with the left side of the piston plate (805), and the other end of the second pull rope extends out of the piston cylinder (804); the left end of the piston cylinder (804) is provided with a third wire guide wheel (803), and a second pull rope (802) rounds the third wire guide wheel (803) and then extends downwards and is connected with a third rope tying ring (801) fixed on the base (101); the bottom of the right end of the piston cylinder (804) is connected with a liquid suction pipe (807); the middle section of the liquid suction pipe (807) is communicated with the middle section of the liquid discharge pipe (502); the pipette (807) is provided with a first check valve for controlling fluid to fall into the piston cylinder (804); the top end of the right end of the piston cylinder (804) is connected with a liquid return pipe (808), and a second check valve for controlling fluid to fall into the piston cylinder (804) is arranged on the liquid return pipe (808).

10. The blending device for producing the ferment milk tea with high uniformity according to claim 9, wherein the liquid sprinkling assembly (9) comprises a second sliding rail (901), a third connecting rod (902), a second sliding block (903), a fourth connecting rod (904), a liquid storage ring (905), a liquid outlet pipe (906), a joint (907) and a soft pipe (908);

the second sliding rail (901) is arranged below the second rack (701) in parallel and is connected with the second rack (701) through a third connecting rod (902); the second sliding block (903) is connected with the second sliding rail (901) in a sliding mode; the bottom of the second sliding block (903) is connected with a liquid storage ring (905) through a fourth connecting rod (904); the liquid storage ring (905) is of a hollow annular structure, is sleeved on the stirring shaft (605) and is rotationally connected with the stirring shaft (605) through a bearing; the outer side wall of the liquid storage pipe is provided with a connector (907), one end of the flexible pipe (908) is connected with the connector (907), and the other end of the flexible pipe is connected with the liquid return pipe (808); liquid storage ring (905) bottom circumference evenly is provided with drain pipe (906), and drain pipe (906) correspond stirring rod (606) and set up.

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