CN211970453U - Refrigerating milk jar - Google Patents

Abstract

The utility model relates to a milk product storage facilities field's a refrigeration milk jar, aim at solving the problem of refrigeration milk jar utilization ratio, it includes inner tank and outer jar, the inner tank periphery is around having the cold water pipe, the cold water pipe sets up between inner tank and outer jar, be equipped with water inlet and the delivery port of being connected with the cold water pipe on the outer jar, water inlet and delivery port are connected with the cold water machine, water inlet and delivery port are connected with the water supply inlet and the return water mouth of cold water machine respectively, be equipped with a plurality of baffles that are parallel to each other in the inner tank, adjacent baffle and inner tank lateral wall, the baffle forms isolation chamber with the both ends inner wall of inner tank, all be equipped with the feed inlet that corresponds with every isolation chamber on the roof of inner tank and outer jar, be equipped with the discharging pipe that communicates with the inner tank on. The utility model discloses use a refrigeration milk jar to store different materials, have the effect that reduces the wasting of resources.

Description

Refrigerating milk jar

Technical Field

The utility model belongs to the technical field of dairy products storage facilities's technique and specifically relates to a refrigeration milk jar is related to.

Background

In the production process of the dairy product, fresh milk is processed into yoghourt or other dairy products, and finally filling and packaging are carried out. A large amount of fresh milk is used in the processing process, and in order to ensure the sufficiency of production raw materials, a certain amount of raw materials are reserved in a production workshop for production and use in the day, and the fresh milk needs to be preserved at a low temperature.

The existing Chinese patent with publication number CN2356480Y discloses an energy-saving refrigeration milk container, which comprises a refrigeration compressor, a water condenser, an air condenser, a pipeline, a refrigeration milk container, a control system and a horizontal cylindrical container with an oval cross section, wherein the lower half part of the container is an evaporator formed by spot welding two layers of stainless steel plates with different thicknesses and then pressurizing the stainless steel plates, and a refrigeration medium directly exchanges heat with milk through the stainless steel plate evaporator to cool the milk, thereby playing a role in keeping the milk fresh.

The above prior art solutions have the following drawbacks: in the process of processing fresh milk, the fresh milk stored on the same day is not always completely used, the produced dairy products are not completely filled and packaged, if new raw materials and the newly produced dairy products are mixed with the dairy products on the previous day on the next day, the raw materials and the dairy products in the refrigeration milk tank can be very early for a long time, if the raw materials and the dairy products left on the previous day are completely used, the raw materials on the next day need to be stored in a new refrigeration milk tank, and the dairy products produced on the next day need to be stored just by the new refrigeration milk, so that the resource waste is caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a refrigeration milk cylinder, it uses a refrigeration milk cylinder to store different materials, has the effect that reduces the wasting of resources to the not enough of prior art existence.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

the utility model provides a refrigeration milk jar, includes inner tank and outer jar, the inner tank periphery is around having the cold water pipe, the cold water pipe sets up between inner tank and outer jar, be equipped with water inlet and the delivery port of being connected with the cold water union coupling on the outer jar, water inlet and delivery port are connected with the cold water machine, water inlet and delivery port are connected with the water supply inlet and the return water mouth of cold water machine respectively, be equipped with a plurality of baffles that are parallel to each other in the inner tank, it is adjacent baffle and inner tank lateral wall, baffle form isolation chamber with the both ends inner wall of inner tank, all be equipped with the feed inlet that corresponds with every isolation chamber on the roof of inner tank and outer jar, outer jar corresponds to be equipped with the discharging pipe that communicates with the inner tank on the diapire of every.

By adopting the technical scheme, cold water generated by the water cooler passes through the space between the inner tank and the outer tank through the cold water pipe, the inner tank is cooled, the inner tank is divided into a plurality of small isolation chambers by the partition plates, and because the material raw materials are less every day and the isolation chambers with small volumes can accommodate, different residual materials can be added into different isolation chambers from the feed inlet, the utilization rate of the refrigeration milk cylinder is improved, and the using amount of the refrigeration milk cylinder is reduced; the volume of the refrigerating milk cylinder is not changed, the electric quantity consumed by the water cooler at low temperature of the inner tank is almost unchanged, and the refrigerating milk cylinders work simultaneously to change into one refrigerating milk cylinder, so that the power consumption is reduced. The material in the isolation chamber can be discharged through the discharge pipe.

The utility model discloses further set up to: the feed inlet includes the pipe of being connected with inner tank feed inlet border, the outer wall of the outer jar of one end protrusion of inner tank is kept away from to the pipe, one side that the inner tank was kept away from to the pipe is equipped with the closing cap that seals the pipe port.

By adopting the technical scheme, the material splashed between the inner tank and the outer tank can be reduced by adding the material from the end, extending out of the outer tank, of the circular pipe, the waste of the material is reduced, the end, extending out of the outer tank, of the circular pipe is sealed by the sealing cover, impurities entering the isolation chamber are reduced, and the quality of the material is ensured; meanwhile, the air circulation between the isolation room and the outside is reduced, the amount of cold water required for cooling is reduced, and resources are saved.

The utility model discloses further set up to: the round pipe is connected with the edge of the feed inlet of the outer tank in a sealing way.

Through adopting above-mentioned technical scheme, the border with the outer jar feed inlet is sealed, can reduce the cold water pipe between inner tank and the outer jar and the circulation of outside air, reduces cold water pipe and external heat exchange, reduces to reduce cold water pipe temperature and needs electric quantity, resources are saved.

The utility model discloses further set up to: be equipped with the retaining member of being connected with the pipe on the closing cap, the retaining member is including setting up in the closing cap and deviating from pipe one side and follow the connecting rod that pipe diameter direction set up, the connecting rod is connected with the closing cap, connecting rod one end is articulated with the pipe, rotate on the lateral wall of the relative articulated side of pipe and be connected with horizontal rotating shaft, fixedly connected with screw rod in the pivot, the one end that the connecting rod is on a parallel with pivot axial direction is equipped with the opening that holds the screw rod, the one end threaded connection that the pivot was kept away from to the screw rod has the butt piece.

Through adopting above-mentioned technical scheme, with the terminal surface butt of closing cap and pipe, rotate the screw rod and get into in the opening, make the butt joint piece keep away from the one end of pivot from the screw rod and be connected with the screw rod, rotate the butt joint piece and support tightly with the connecting rod, just can lock the connection of closing cap and pipe. The butt joint block is rotated to be separated from the screw rod, the screw rod is rotated to be separated from the opening, the connecting rod is held to rotate around the hinged position, the closed cover can be separated from the circular tube, and the port of the circular tube can be opened to feed materials. The connection and the separation of the sealing cover and the circular tube are convenient to control.

The utility model discloses further set up to: the partition plate is arranged in a hollow mode and is vacuumized.

By adopting the technical scheme, the interior of the partition is in vacuum, so that the heat insulation effect between two adjacent isolation chambers can be improved; when a material with lower temperature exists in one isolation chamber, a new material is added into the adjacent isolation chambers, the hollow partition plate reduces heat exchange between the two isolation chambers, the influence of the newly added material on the cooled material is reduced, the consumption of cold water can be reduced, and resources are saved.

The utility model discloses further set up to: and the top wall of the outer tank corresponding to each isolation chamber is provided with a feeding pipe communicated with the inner tank.

Through adopting above-mentioned technical scheme, the inlet pipe set up convenient and other be difficult to the head tank that remove and be connected, can directly transport the material in other jars to the isolator in through the transfer pump, improve material transport's efficiency.

The utility model discloses further set up to: the outer wall of the inner tank is provided with a plurality of heat conducting rods connected with the cold water pipe, and the heat conducting rods penetrate into the inner tank.

Through adopting above-mentioned technical scheme, the heat conduction pole has good heat conductivity, and the heat conduction pole can reduce energy transfer's loss, energy saving with the quick transmission to the inner tank of the temperature of cold water pole.

The utility model discloses further set up to: and a shell for wrapping the water chiller is arranged outside the water chiller, and the shell is communicated with a ventilation pipe connected with the outdoor.

Through adopting above-mentioned technical scheme, the casing wraps up the cold water machine, and the cold water machine refrigeration process exhaust heat can reduce the temperature around the jar body through the ventilation pipe discharge chamber, reduces the cold water volume that the cooling jar body needs, resources are saved.

To sum up, the utility model discloses a beneficial technological effect does:

1. the isolation chamber formed by the inner tank and the partition plate can improve the utilization rate of the refrigeration milk cylinder and reduce the electric quantity required by cooling materials;

2. due to the arrangement of the sealing cover, the air circulation between the isolation chamber and the outside is reduced, the amount of cold water required for cooling is reduced, and resources are saved;

3. the heat conducting rod can quickly transfer the temperature of the cold water rod into the inner tank, so that the loss of energy transfer is reduced;

4. the ventilation pipe discharges heat generated by the water chiller, reduces the temperature around the tank body, reduces the amount of cold water required by the cooling tank body, and saves resources.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the locking member of the present invention.

Reference numerals: 1. an outer tank; 11. an inner tank; 12. a cold water pipe; 13. a water inlet; 14. a water outlet; 15. a water chiller; 16. a stirring shaft; 17. a stirring blade; 18. a motor; 2. a housing; 21. a vent pipe; 3. a partition plate; 31. an isolation chamber; 32. a discharge pipe; 33. a feed pipe; 4. a feed inlet; 41. a circular tube; 42. a closure cap; 43. a locking member; 44. a connecting rod; 45. a rotating shaft; 46. a screw; 47. a butting block; 48. an opening; 5. a heat conducting rod.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, for the utility model discloses a refrigeration milk container, including inner tank 11 and outer jar 1, inner tank 11 periphery is around having cold water pipe 12, and cold water pipe 12 sets up between inner tank 11 and outer jar 1, is equipped with water inlet 13 and the delivery port 14 of being connected with cold water pipe 12 on the outer jar 1, and water inlet 13 and delivery port 14 are connected with cold water machine 15, and water inlet 13 and delivery port 14 are connected with water supply inlet and the return water mouth of cold water machine 15 respectively. The outer part of the water cooler 15 is provided with a shell 2 wrapping the water cooler 15, and the shell 2 is communicated with a ventilation pipe 21 connected with the outdoor. The influence of the heat generated by the water chiller 15 on the refrigerated milk container can be reduced.

As shown in fig. 1, in order to improve the utilization ratio of the refrigeration milk cylinder, be equipped with a plurality of baffles 3 that are parallel to each other in the inner tank 11, adjacent baffle 3 and the 11 lateral walls of inner tank, baffle 3 forms isolation chamber 31 with the both ends inner wall of inner tank 11, in this embodiment, be equipped with two baffles 3, form three isolation chamber 31, all be equipped with the feed inlet 4 that corresponds with every isolation chamber 31 on the roof of inner tank 11 and outer jar 1, be equipped with the discharging pipe 32 with inner tank 11 intercommunication on the diapire that outer jar 1 corresponds every isolation chamber 31. The upper wall of the outer tank 1 corresponding to each isolation chamber 31 is provided with a feeding pipe 33 communicated with the inner tank 11. The lateral wall of the outer tank 1 corresponding to each isolation chamber 31 is provided with a stirring shaft 16 extending into the inner tank 11, the stirring shaft 16 is provided with stirring blades 17, the lateral wall of the outer tank 1 is provided with a speed reducer and a motor 18 connected with the stirring shaft 16, and the motor 18 drives the stirring shaft 16 and the stirring blades 17 to rotate, so that the precipitation of materials is reduced.

As shown in fig. 1 and 2, in order to reduce the heat exchange between the inside of the inner vessel 11 and the outside, the feed port 4 includes a circular tube 41 connected to the edge of the feed port 4 of the inner vessel 11, and in this embodiment, the circular tube 41 is welded to the inner vessel 11. One end of the circular tube 41 far away from the inner tank 11 protrudes out of the outer wall of the outer tank 1, and one side of the circular tube 41 far away from the inner tank 11 is provided with a sealing cover 42 for sealing the port of the circular tube 41. Be equipped with the retaining member 43 of being connected with pipe 41 on the closing cap 42, retaining member 43 is including setting up in the closing cap 42 and deviating from pipe 41 one side and along the connecting rod 44 that 41 diameter direction of pipe set up, connecting rod 44 is connected with closing cap 42, in this embodiment, connecting rod 44 passes through the bolt and is connected with closing cap 42, connecting rod 44 one end is articulated with pipe 41, it has horizontal rotating shaft 45 to rotate on the relative articulated lateral wall of side of pipe 41, fixedly connected with screw rod 46 on the pivot 45, connecting rod 44 is on a parallel with 45 axial direction's of pivot one end is equipped with the opening 48 that holds screw rod 46, screw rod 46 threaded connection has butt block 47.

As shown in fig. 1, in order to further reduce the heat exchange between the inner tank 11 and the outer tank 1 and the outside, the circular tube 41 is hermetically connected with the edge of the feed port 4 of the outer tank 1. In this embodiment, the circular tube 41 is welded to the outer tank 1.

As shown in fig. 1, the partition 3 is hollow and evacuated in order to further reduce heat exchange between adjacent isolation chambers 31.

As shown in fig. 1, in order to further reduce the energy transfer loss, a plurality of heat conducting rods 5 connected with the cold water pipe 12 are arranged on the outer wall of the inner tank 11, and the heat conducting rods 5 penetrate into the inner tank 11. The heat conduction rod 5 in this embodiment is made of copper.

The implementation principle of the embodiment is as follows: cold water generated by a water cooler 15 passes through a space between the inner tank 11 and the outer tank 1 through a cold water pipe 12, the inner tank 11 is cooled, the inner tank 11 is divided into a plurality of small isolation chambers 31 by the partition plates 3, and because the material raw materials are less every day and the isolation chambers 31 with small volumes can accommodate, different residual materials can be added into different isolation chambers 31 from the feed inlet 4, the utilization rate of the refrigeration milk cylinder is improved, and the using amount of the refrigeration milk cylinder is reduced; the volume of the refrigerating milk cylinder is not changed, the electric quantity consumed by the water cooler 15 at low temperature of the inner tank 11 is almost unchanged, a plurality of refrigerating milk cylinders work simultaneously to be changed into one refrigerating milk cylinder to work, and the electric quantity is reduced.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides a refrigeration milk cylinder, includes inner tank (11) and outer jar (1), inner tank (11) periphery is around having cold water pipe (12), cold water pipe (12) set up between inner tank (11) and outer jar (1), be equipped with water inlet (13) and delivery port (14) of being connected with cold water pipe (12) on outer jar (1), water inlet (13) and delivery port (14) are connected with cold water machine (15), water inlet (13) and delivery port (14) are connected with the water supply mouth and the return water mouth of cold water machine (15) respectively, its characterized in that: be equipped with a plurality of baffles (3) that are parallel to each other in inner tank (11), it is adjacent baffle (3) and inner tank (11) lateral wall, baffle (3) form isolation chamber (31) with the both ends inner wall of inner tank (11), all be equipped with feed inlet (4) that correspond with every isolation chamber (31) on the roof of inner tank (11) and outer jar (1), be equipped with on the diapire that outer jar (1) corresponds every isolation chamber (31) with discharging pipe (32) of inner tank (11) intercommunication.

2. A refrigerated dairy jar as claimed in claim 1 wherein: feed inlet (4) include pipe (41) of being connected with inner tank (11) feed inlet (4) border, the outer wall of the outer jar of one end protrusion (1) of inner tank (11) is kept away from in pipe (41), one side that inner tank (11) were kept away from in pipe (41) is equipped with closing cap (42) that seals pipe (41) port.

3. A refrigerated dairy jar as claimed in claim 2 wherein: the round pipe (41) is connected with the edge of the feed inlet (4) of the outer tank (1) in a sealing way.

4. A refrigerated dairy jar as claimed in claim 2 wherein: be equipped with retaining member (43) of being connected with pipe (41) on closing cap (42), retaining member (43) are including setting up connecting rod (44) that deviates from pipe (41) one side and set up along pipe (41) diameter direction in closing cap (42), connecting rod (44) are connected with closing cap (42), connecting rod (44) one end is articulated with pipe (41), rotate on the lateral wall of the relative articulated side of pipe (41) and be connected with horizontal pivot (45), fixedly connected with screw rod (46) on pivot (45), connecting rod (44) are on a parallel with pivot (45) axial direction's one end and are equipped with opening (48) that hold screw rod (46), the one end threaded connection that pivot (45) were kept away from in screw rod (46) has butt joint piece (47).

5. A refrigerated dairy jar as claimed in claim 1 wherein: the partition plate (3) is arranged in a hollow mode and is vacuumized.

6. A refrigerated dairy jar as claimed in claim 1 wherein: the top wall of the outer tank (1) corresponding to each isolation chamber (31) is provided with a feeding pipe (33) communicated with the inner tank (11).

7. A refrigerated dairy jar as claimed in claim 1 wherein: the outer wall of the inner tank (11) is provided with a plurality of heat conducting rods (5) connected with the cold water pipe (12), and the heat conducting rods (5) penetrate into the inner tank (11).

8. A refrigerated dairy jar as claimed in claim 1 wherein: the water chiller is characterized in that a shell (2) wrapping the water chiller (15) is arranged outside the water chiller (15), and the shell (2) is communicated with a ventilation pipe (21) connected with the outdoor.

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