CN209495498U - A kind of cooling cycle system of milk processing - Google Patents

Abstract

The utility model discloses a kind of cooling cycle systems of milk processing, including fluid reservoir, pedestal, inlet, switch valve, strainer, liquid outlet, insulating layer, motor, rotating bar, stirring rod, temperature sensor, inlet tube, snap-chill cabinet, quick cooler, outlet tube, liquid pump and observation window, insulating layer is fixed in liquid storage chamber interior walls and inlet tube, the outside of outlet tube, motor is fixedly connected at the top of fluid reservoir, the output end of motor is through fluid reservoir and extends to inside it, rotating bar is fixedly connected on motor output end, stirring rod is fixedly connected in rotating bar, inlet tube and outlet tube connection fluid reservoir and snap-chill cabinet, quick cooler includes S bend pipe, condenser pipe, support column, blower and copper sheathing, the upper and lower side of S bend pipe is fixedly connected and is connected with inlet tube and outlet tube respectively, condenser pipe is fixedly connected on snap-chill cabinet Inside two sides, support column is fixedly connected on the inner wall of snap-chill cabinet, and blower is fixedly connected on the support columns.

Description

A kind of cooling cycle system of milk processing

Technical field

The utility model relates to milk quickly cooling technical field, specially a kind of cooling cycle system of milk processing.

Background technique

Milk cooling equipment is one of milk cooling equipment concept milk cow field device.For just squeeze collection milk by 36 DEG C Left and right is cooled to 4~5 DEG C in 2~3 hours, to inhibit bacterial reproduction, keeps milk freshness, and saved at this temperature Or it processes or transports.

Therefore, vital work will be played to subsequent processing by how carrying out quick cooling preservation to milk With.

Utility model content

The purpose of this utility model is to provide a kind of cooling cycle systems of milk processing, to solve above-mentioned background skill The problem of being proposed in art.

To achieve the above object, the utility model provides the following technical solutions: a kind of refrigeration cycle system of milk processing System, including fluid reservoir, pedestal, inlet, switch valve, strainer, liquid outlet, insulating layer, motor, rotating bar, stirring rod, temperature pass Sensor, inlet tube, snap-chill cabinet, quick cooler, outlet tube, liquid pump and observation window, the fluid reservoir are fixedly connected on the pedestal Left side, the inlet is fixedly connected on the upper left side of the fluid reservoir and is attached thereto logical, switch valve fixed setting In each milk import and export, the strainer is fixedly connected on the lower section of the inlet, and the liquid outlet is fixedly connected on institute State the left side lower position of fluid reservoir and be attached thereto it is logical, the insulating layer be fixed on the inner wall of the fluid reservoir and The outside of the inlet tube, outlet tube, the motor are fixedly connected on the top of the fluid reservoir, and the rotating bar is fixedly connected In the output end of the motor, the stirring rod is fixedly connected in the rotating bar, and the temperature sensor is fixedly connected on On the outer wall of the fluid reservoir and the snap-chill cabinet, the both ends of the inlet tube are respectively fixedly connected in the fluid reservoir and institute It states on snap-chill cabinet, the snap-chill cabinet is fixedly connected on the right side of the pedestal, and the both ends of the outlet tube are respectively fixedly connected with On the fluid reservoir and the snap-chill cabinet, the liquid pump is fixedly connected on the outlet tube, and the observation window is provided with described The front of fluid reservoir.

The quick cooler includes S bend pipe, condenser pipe, support column, blower and copper sheathing, the upper and lower side difference of the S bend pipe It is fixedly connected and is connected with the inlet tube and the outlet tube, the condenser pipe is fixedly connected on the inside of the snap-chill cabinet Two sides, the both ends of the support column are respectively fixedly connected on the inner wall up and down of the snap-chill cabinet, and the blower is fixedly connected on On the support column, the copper sheathing is socketed on the S bend pipe.

Preferably, the output end of the motor through the fluid reservoir and extends to inside it.

Preferably, the quantity of the stirring rod is six, and is symmetricly set in the rotating bar in pairs.

Preferably, the test side of the temperature sensor through the fluid reservoir and the snap-chill cabinet and extends to theirs It is internal.

Preferably, the inlet tube and the outlet tube are connected to the fluid reservoir and the snap-chill cabinet.

Preferably, the quantity of the blower is three, and is distributed on the appropriate location of the support column.

Compared with prior art, the utility model has the beneficial effects that the cooling cycle system of the milk processing:

(1), the indoor milk of liquid storage can be pumped into snap-chill cabinet by liquid pump by inlet tube, then be returned again through outlet tube It flow in fluid reservoir, temperature sensor timely can be detected and be carried out data transmission to the temperature in device, and S bend pipe can It can be cooled down to snap-chill cabinet inside with the area and time, condenser pipe that increase cooling, support column can consolidate blower Fixed and supporting role, blower can accelerate the circulation diffusion of the cold air inside snap-chill cabinet, accelerate the indoor temperature decline of quickly cooling Speed, copper sheathing can be very good absorption cold air and be then passed to S bend pipe, and the milk in it is made to be cooled down faster.

Detailed description of the invention

Fig. 1 is the utility model front cross-sectional schematic diagram；

Fig. 2 is enlarged diagram at the utility model A；

Fig. 3 is the utility model observation window schematic diagram.

In figure: 1 fluid reservoir, 2 pedestals, 3 inlets, 4 switch valves, 5 strainers, 6 liquid outlets, 7 insulating layers, 8 motors, 9 rotations Bar, 10 stirring rods, 11 temperature sensors, 12 inlet tubes, 13 snap-chill cabinets, 14 quick coolers, 1401S type pipe, 1402 condenser pipes, 1403 support columns, 1404 blowers, 1405 copper sheathings, 15 outlet tubes, 16 liquid pumps, 17 observation windows.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-3 is please referred to, the utility model provides a kind of technical solution: a kind of cooling cycle system of milk processing, Including fluid reservoir 1, pedestal 2, inlet 3, switch valve 4, strainer 5, liquid outlet 6, insulating layer 7, motor 8, rotating bar 9, stirring rod 10, temperature sensor 11, inlet tube 12, snap-chill cabinet 13, quick cooler 14, outlet tube 15, liquid pump 16 and observation window 17, liquid storage Room 1 is fixedly connected on the left side of pedestal 2, and inlet 3 is fixedly connected on the upper left side of fluid reservoir 1 and is attached thereto logical, switch valve 4 It is fixed at each milk import and export, strainer 5 is fixedly connected on the lower section of inlet 3, and strainer 5 can carry out just milk The impurity of step removes, and liquid outlet 6 is fixedly connected on the left side lower position of fluid reservoir 1 and is attached thereto logical, and the fixation of insulating layer 7 is set It sets on the inner wall of fluid reservoir 1 and the outside of inlet tube 12, outlet tube 15, motor 8 is fixedly connected on the top of fluid reservoir 1, The output end of motor 8 is through fluid reservoir 1 and extends to inside it, the model MSME 5AZG1 of motor 8, and rotating bar 9 is fixed to be connected The output end in motor 8 is connect, stirring rod 10 is fixedly connected in rotating bar 9, and the quantity of stirring rod 10 is six, and two-by-two one Group is symmetricly set in rotating bar 9, and temperature sensor 11 is fixedly connected on the outer wall of fluid reservoir 1 and snap-chill cabinet 13, temperature Fluid reservoir 1 and snap-chill cabinet 13 are run through in the test side of sensor 11 and the inside for extending to them, temperature sensor 11 can be timely The temperature in device is detected and is carried out data transmission, the both ends of inlet tube 12 be respectively fixedly connected in fluid reservoir 1 and On snap-chill cabinet 13, snap-chill cabinet 13 is fixedly connected on the right side of pedestal 2, and the both ends of outlet tube 15 are respectively fixedly connected in fluid reservoir 1 And on snap-chill cabinet 13, inlet tube 12 and outlet tube 15 are connected to fluid reservoir 1 and snap-chill cabinet 13, and liquid pump 16 is fixedly connected on outlet tube On 15, the milk in fluid reservoir 1 can be pumped into snap-chill cabinet 13 by liquid pump 16 by inlet tube 12, then be returned again through outlet tube 15 It flow in fluid reservoir 1, observation window 17 is provided with the front of fluid reservoir 1.

Quick cooler 14 includes S bend pipe 1401, condenser pipe 1402, support column 1403, blower 1404 and copper sheathing 1405, S type The upper and lower side of pipe 1401 is fixedly connected and is connected with inlet tube 12 and outlet tube 15 respectively, and S bend pipe 1401 can increase cooling Area and time, condenser pipe 1402 be fixedly connected on the inside two sides of snap-chill cabinet 13, condenser pipe 1402 can be to snap-chill cabinet 13 Inside cools down, and the both ends of support column 1403 are respectively fixedly connected on the inner wall up and down of snap-chill cabinet 13, and support column 1403 can Blower 1404 to be fixed and supporting role, blower 1404 are fixedly connected on support column 1403, the quantity of blower 1404 It is three, and is distributed on the appropriate location of support column 1403, blower 1404 can accelerates following for the cold air inside snap-chill cabinet 13 Ring diffusion, accelerates the temperature drop rate in snap-chill cabinet 13, and copper sheathing 1405 is socketed on S bend pipe 1401, and copper sheathing 1405 can be with Good absorption cold air is then passed to S bend pipe 1401, and the milk in it is made to be cooled down faster.

After milk squeezes out collection from milk cow, entered in fluid reservoir 1 by inlet 3, strainer 5 can carry out milk Then contaminant filter opens liquid pump 16, milk is pumped into S bend pipe 1401 from inlet tube 12, opens condensing unit, utilization is cold Solidifying pipe 1402 cools down to snap-chill cabinet 13, opens blower 1404, accelerates the cold air diffusion in snap-chill cabinet 13, milk is in S type Cooled down when flowing in pipe 1401, be then back in fluid reservoir 1 by outlet tube 15, then stirring rod 10 is driven by motor 8 Mixing is stirred to milk, accelerates to accelerate cooling, to milk by near suitable by cooling milk and not by the mixing of cooling milk When temperature, turns off liquid pump 16, stops condensation.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (6)

1. a kind of cooling cycle system of milk processing, including fluid reservoir (1), pedestal (2), inlet (3), switch valve (4), Strainer (5), liquid outlet (6), insulating layer (7), motor (8), rotating bar (9), stirring rod (10), temperature sensor (11), feed liquor Manage (12), snap-chill cabinet (13), quick cooler (14), outlet tube (15), liquid pump (16) and observation window (17), it is characterised in that: institute The left side that fluid reservoir (1) is fixedly connected on the pedestal (2) is stated, the inlet (3) is fixedly connected on the fluid reservoir (1) Upper left side is simultaneously attached thereto logical, and the switch valve (4) is fixed at each milk import and export, and the strainer (5) is fixed to be connected The lower section in the inlet (3) is connect, the liquid outlet (6) is fixedly connected on the left side lower position of the fluid reservoir (1) simultaneously Be attached thereto it is logical, the insulating layer (7) is fixed on the inner wall of the fluid reservoir (1) and the inlet tube (12), go out The outside of liquid pipe (15), the motor (8) are fixedly connected on the top of the fluid reservoir (1), and the rotating bar (9) is fixedly connected Output end in the motor (8), the stirring rod (10) are fixedly connected on the rotating bar (9), the temperature sensor (11) it is fixedly connected on the outer wall of the fluid reservoir (1) and the snap-chill cabinet (13), the both ends point of the inlet tube (12) It is not fixedly connected on the fluid reservoir (1) and the snap-chill cabinet (13), the snap-chill cabinet (13) is fixedly connected on the pedestal (2) right side, the both ends of the outlet tube (15) are respectively fixedly connected on the fluid reservoir (1) and the snap-chill cabinet (13), The liquid pump (16) is fixedly connected on the outlet tube (15), and the observation window (17) is being provided with the fluid reservoir (1) just Face；

The quick cooler (14) includes S bend pipe (1401), condenser pipe (1402), support column (1403), blower (1404) and copper It covers (1405), the upper and lower side of the S bend pipe (1401) is fixedly connected with the inlet tube (12) and the outlet tube (15) respectively And be connected, the condenser pipe (1402) is fixedly connected on the inside two sides of the snap-chill cabinet (13), the support column (1403) Both ends be respectively fixedly connected on the inner wall up and down of the snap-chill cabinet (13), the blower (1404) is fixedly connected on the branch On dagger (1403), the copper sheathing (1405) is socketed on the S bend pipe (1401).

2. a kind of cooling cycle system of milk processing according to claim 1, it is characterised in that: the motor (8) Output end through the fluid reservoir (1) and extending to inside it.

3. a kind of cooling cycle system of milk processing according to claim 1, it is characterised in that: the stirring rod (10) quantity is six, and is symmetricly set on the rotating bar (9) in pairs.

4. a kind of cooling cycle system of milk processing according to claim 1, it is characterised in that: the temperature sensing The test side of device (11) is through the fluid reservoir (1) and the snap-chill cabinet (13) and the inside for extending to them.

5. a kind of cooling cycle system of milk processing according to claim 1, it is characterised in that: the inlet tube (12) and the outlet tube (15) is connected to the fluid reservoir (1) and the snap-chill cabinet (13).

6. a kind of cooling cycle system of milk processing according to claim 1, it is characterised in that: the blower (1404) quantity is three, and is distributed on the appropriate location of the support column (1403).