CN209882953U - Probiotics ferment milk cooling device - Google Patents

Abstract

The utility model provides a probiotic fermented milk cooling device, including a jar body, refrigeration board, flabellum and servo motor, bolt fastening servo motor is passed through to jar body upper end, servo motor lower extreme (mixing) shaft, (mixing) shaft annular outside installation filter plate, eight at least refrigeration boards and spiral pipe, the fixed rolling gear of (mixing) shaft ring side, four auxiliary gear, four of tooth meshing are passed through to the rolling gear ring side auxiliary gear fixes respectively on four pivot ring sides, the fixed flabellum of pivot lower extreme, this design utilize coolant liquid and spiral pipe to realize tentatively cooling liquid, utilize the (mixing) shaft to realize the stirring simultaneously, improve the cooling effect to utilize rolling gear and auxiliary gear. The fan blades are rotated to generate air flow to blow cold air generated by the refrigerating plate to the liquid, so that secondary cooling is realized, and the cooling efficiency is improved.

Description

Probiotics ferment milk cooling device

Technical Field

The utility model relates to a probiotics ferment milk cooling device belongs to and ferments milk production technical field.

Background

Probiotics are a general term for a group of active microorganisms that, when ingested in sufficient quantities by a host, improve the balance of the microbial flora in the body and have a positive effect on their health. In a plurality of dairy products, the fermented milk is considered to be the most ideal carrier for transferring probiotics into a human body, the health care effect of the strains and the health effect of the fermented milk can be perfectly combined after the probiotics are added, and the fermented milk needs to be cooled to a certain temperature through a cooling process in the production process, so that the subsequent processes of the fermented milk are facilitated.

The probiotic fermented milk cooling device in the prior art only utilizes refrigeration equipment to realize cooling, can not cool fermented milk fast, and cooling efficiency is low, also can influence production efficiency, needs to design a probiotic fermented milk cooling device and solves above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims at providing a probiotics ferment milk cooling device to solve the problem that proposes in the above-mentioned background art, the utility model discloses realize the stirring, improve the cooling effect, promote cooling efficiency.

In order to achieve the above purpose, the present invention is realized by the following technical solution: a probiotic fermented milk cooling device comprises a tank body, refrigeration plates, fan blades and a servo motor, wherein the servo motor is fixed at the upper end of the tank body through bolts, a stirring shaft at the lower end of the servo motor is arranged in the tank body and penetrates through the tank body to be connected with the servo motor, a filter plate, at least eight refrigeration plates and spiral pipes are arranged on the outer side of the annular ring of the stirring shaft, a rotating gear is fixed on the annular side surface of the stirring shaft and is meshed with four auxiliary gears through teeth, four auxiliary gears are respectively fixed on the annular side surfaces of four rotating shafts, the fan blades are fixed at the lower end of the rotating shafts, the rotating shafts are arranged at the top end of the inner part of the tank body through bearings, four fan blades are arranged on the outer side of the annular ring of the stirring shaft, the refrigeration plates are arranged below the, the spiral pipe, the stirring shaft, the filter plate, the refrigerating plate, the fan blades, the auxiliary gear and the rotating gear are all installed inside the tank body.

Further, two stiffener of internal portion bottom welding of jar, and two stiffener symmetries are installed at both ends about the spiral pipe, and two at least bracing pieces of stiffener inner equidistance welding, and two at least bracing pieces are all installed at the spiral pipe side and are extended to the spiral pipe inside, and two at least connecting rods of stiffener outer end equidistance welding, and two at least connecting rods all weld on a jar internal wall, and two at least bracing piece lower extremes all weld the set-square, and two at least set-squares all weld in the stiffener inner.

Further, jar body lower part left end installation drain pipe, and the drain pipe is connected with collecting device through the pump, jar body right-hand member installation inlet tube, and the feed liquor pipe is installed in the filter plate below, and the feed liquor pipe is connected with raw materials storage device through the pump.

Further, the inlet tube is installed to spiral pipe upper portion left end, and the inlet tube is installed at a jar body left end and is passed a jar body and be connected with the spiral pipe, spiral pipe lower part right-hand member installation outlet pipe, and the outlet pipe is installed at a jar body right-hand member and is passed a jar body and be connected with the spiral pipe, and the inlet tube left end is connected with the coolant liquid equipment through quick-operation joint and pipeline, and the outlet pipe right-hand member is connected with the coolant liquid equipment through quick-operation joint and pipeline.

The utility model has the advantages that: the utility model discloses a probiotics ferment milk cooling device, the utility model discloses an add spiral pipe, (mixing) shaft, filter plate, refrigeration board, flabellum, auxiliary gear, pivot, rolling gear and servo motor, this design makes the coolant liquid flow in the spiral pipe, and then makes the coolant liquid and jar internal liquid carry out the heat exchange, realizes carrying out the primary cooling to liquid, and it is rotatory to utilize servo motor to drive the (mixing) shaft simultaneously, realizes stirring liquid, improves the cooling effect, and the rotatory rolling gear that drives of (mixing) shaft is rotatory in addition to it is rotatory to drive auxiliary gear. And then it is rotatory to drive the pivot to it is rotatory to drive the flabellum, and the flabellum is rotatory can drive the air current and blow downwards, and refrigeration board work produces air conditioning simultaneously, then air conditioning moves down under the air current effect, and then makes air conditioning run through the filter plate and blow to the liquid on, realizes the aftercooling, promotes cooling efficiency, the utility model discloses realize the stirring, improve the cooling effect, promote cooling efficiency.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a front view of a probiotic fermented milk cooling device of the present invention;

fig. 2 is a schematic view of the direction a of the probiotic fermented milk cooling device of the present invention;

fig. 3 is a schematic view of the direction B of the probiotic fermented milk cooling device of the present invention;

fig. 4 is a schematic view of the direction C of the probiotic fermented milk cooling device of the present invention;

in the figure: 1-tank body, 2-spiral pipe, 3-stirring shaft, 4-filter plate, 5-refrigeration plate, 6-fan blade, 7-auxiliary gear, 8-rotating shaft, 9-rotating gear, 10-servo motor, 101-reinforcing rod, 102-supporting rod, 103-liquid outlet pipe, 104-liquid inlet pipe, 201-water inlet pipe and 202-water outlet pipe.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

Referring to fig. 1-4, the present invention provides a technical solution: a probiotic fermented milk cooling device comprises a tank body 1, refrigeration plates 5, fan blades 6 and a servo motor 10, wherein the servo motor 10 is fixed at the upper end of the tank body 1 through bolts, a stirring shaft 3 is arranged at the lower end of the servo motor 10, the stirring shaft 3 is arranged in the tank body 1 and penetrates through the tank body 1 to be connected with the servo motor 10, a filter plate 4, at least eight refrigeration plates 5 and a spiral tube 2 are arranged on the annular outer side of the stirring shaft 3, a rotating gear 9 is fixed on the annular side surface of the stirring shaft 3, the annular side surface of the rotating gear 9 is meshed with four auxiliary gears 7 through teeth, the four auxiliary gears 7 are respectively fixed on the annular side surfaces of four rotating shafts 8, the fan blades 6 are fixed at the lower end of the rotating shaft 8, the rotating shaft 8 is arranged at the top end in the tank body 1 through bearings, the four, the spiral pipe 2 is arranged below the filter plate 4, the spiral pipe 2, the stirring shaft 3, the filter plate 4, the refrigeration plate 5, the fan blade 6, the auxiliary gear 7 and the rotary gear 9 are all arranged inside the tank body 1, a person enables cooling liquid to flow in the spiral pipe 2, and further enables the cooling liquid to exchange heat with the liquid in the tank body 1, so as to realize preliminary cooling of the liquid, meanwhile, the person starts the servo motor 10 and the refrigeration plate 5, the servo motor 10 works to drive the stirring shaft 3 to rotate, the stirring shaft 3 rotates to realize stirring of the liquid, so as to improve the cooling effect, in addition, the rotation of the stirring shaft 3 drives the rotary gear 9 to rotate, because the rotary gear 9 is meshed with the auxiliary gear 7 through the gear, the rotary gear 9 rotates to drive the auxiliary gear 7 to rotate, and further drives the rotating shaft 8 to rotate, so as to drive the fan blade 6 to rotate, then the cold air moves downwards under the action of the airflow, so that the cold air penetrates through the filter plate 4 and is blown to the liquid, secondary cooling is realized, and the cooling efficiency is improved.

Two stiffener 101 of 1 inside bottom weld of jar body, and both ends about the spiral pipe 2 are installed to two stiffener 101 symmetries, and two at least bracing pieces 102 of stiffener 101 inner equidistance welding, and two at least bracing pieces 102 are all installed at 2 sides of spiral pipe and are extended to 2 insides of spiral pipe, and two at least connecting rods of stiffener 101 outer end equidistance welding, and two at least connecting rods all weld on 1 inner wall of jar body, and two at least bracing piece 102 lower extremes all weld the set-square, and two at least set-squares all weld in stiffener 101 the inner, stiffener 101 and bracing piece 102 realize supporting spiral pipe 2, and high stability, the connecting rod can increase stiffener 101 intensity itself simultaneously, the set-square can increase the intensity of connecting rod in addition.

The drain pipe 103 is installed to 1 lower part left end of jar body, and the drain pipe 103 is connected with collecting device through the pump, and feed liquor pipe 104 is installed to 1 right-hand member of jar body, and feed liquor pipe 104 installs in 4 below filter plates, and feed liquor pipe 104 is connected with raw materials storage device through the pump, utilize the pump with raw materials storage device in the stoste through feed liquor pipe 104 get into jar body 1 in, after the stoste cooling is accomplished, personnel utilize the pump will cool off the back stoste from jar body 1 in carry collecting device.

2 upper portion left ends of spiral pipe install inlet tube 201, and inlet tube 201 installs at jar body 1 left end and passes jar body 1 and be connected with spiral pipe 2, 2 lower part right-hand members of spiral pipe install outlet pipe 202, and outlet pipe 202 installs at jar body 1 right-hand members and passes jar body 1 and be connected with spiral pipe 2, and the inlet pipe 201 left end is connected with coolant liquid equipment through quick-operation joint and pipeline, and outlet pipe 202 right-hand member is connected with coolant liquid equipment through quick-operation joint and pipeline, coolant liquid equipment gets into spiral pipe 2 with coolant liquid through pipeline and inlet tube 201 in, and flow in spiral pipe 2, then the rethread outlet pipe 202 and pipeline return coolant liquid equipment, realize recycling.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (4)

1. The utility model provides a probiotic fermented milk cooling device, includes jar body (1), refrigeration board (5), flabellum (6) and servo motor (10), its characterized in that: the utility model discloses a solar energy water heater, including a tank body, a servo motor (10) is fixed through the bolt in the jar body (1) upper end, servo motor (10) lower extreme (3), (mixing) shaft (3) are installed and are passed jar body (1) inside and are connected with servo motor (10) at the (mixing) shaft (3), filter plate (4), eight at least refrigeration boards (5) and spiral pipe (2) are installed in the (mixing) shaft (3) annular outside, fixed running gear (9) of (mixing) shaft (3) annular side, running gear (9) annular side is through four auxiliary gear (7) of tooth meshing, four auxiliary gear (7) are fixed respectively on four pivot (8) annular side, pivot (8) lower extreme fixed flabellum (6), pivot (8) are installed on jar body (1) inside top through the bearing, four flabellum (6) are installed in the (mixing, fan blade (6) below installation refrigeration board (5), eight at least refrigeration board (5) are circular and install in filter plate (4) upper end, spiral pipe (2) are installed to filter plate (4) below, spiral pipe (2), (mixing) shaft (3), filter plate (4), refrigeration board (5), fan blade (6), auxiliary gear (7) and running gear (9) are all installed inside jar body (1).

2. A probiotic fermented milk cooling device according to claim 1, characterized in that: the utility model discloses a spiral pipe (2) of the internal portion of jar, including two reinforcing bars (101) of jar body (1) inside bottom welding, and both ends are installed about spiral pipe (2) to two reinforcing bar (101) symmetries, and reinforcing bar (101) inner equidistance welding two at least bracing pieces (102), and two at least bracing pieces (102) are all installed at spiral pipe (2) side and are extended to spiral pipe (2) inside, and reinforcing bar (101) outer end equidistance welding two at least connecting rods, and two at least connecting rods all weld on jar body (1) inner wall, and two at least bracing piece (102) lower extreme all weld the set-square, and two at least set-squares all weld in reinforcing bar (101.

3. A probiotic fermented milk cooling device according to claim 1, characterized in that: the utility model discloses a filter plate, including jar body (1), drain pipe (103) are installed to jar body (1) lower part left end, and drain pipe (103) are connected with collecting device through the pump, jar body (1) right-hand member installation feed liquor pipe (104), and feed liquor pipe (104) install in filter plate (4) below, and feed liquor pipe (104) are connected with raw materials storage device through the pump.

4. A probiotic fermented milk cooling device according to claim 1, characterized in that: spiral pipe (2) upper portion left end installation inlet tube (201), and inlet tube (201) install at jar body (1) left end and pass a jar body (1) and be connected with spiral pipe (2), spiral pipe (2) lower part right-hand member installation outlet pipe (202), and outlet pipe (202) install at a jar body (1) right-hand member and pass a jar body (1) and be connected with spiral pipe (2), and inlet tube (201) left end is connected with the coolant liquid equipment through quick-operation joint and pipeline, and outlet pipe (202) right-hand member is connected with the coolant liquid equipment through quick-operation joint and pipeline.

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