CN114868799B

CN114868799B - Pasteurization system

Info

Publication number: CN114868799B
Application number: CN202210631021.8A
Authority: CN
Inventors: 王小勇
Original assignee: Shanghai Steinberg Industrial Co ltd
Current assignee: Shanghai Steinberg Industrial Co ltd
Priority date: 2022-06-06
Filing date: 2022-06-06
Publication date: 2023-06-13
Anticipated expiration: 2042-06-06
Also published as: CN114868799A

Abstract

The application relates to the technical field of pasteurization, especially, relate to a pasteurization system, including heating sterilization jar, inlet pipe, discharging pipe and hot water circulating device, hot water circulating device and heating sterilization jar intercommunication, the heating sterilization jar internal rotation is provided with a plurality of material pipes, the axis of rotation of material pipe is along the length direction of material pipe, the both ends of material pipe all are provided with the connector that is used for connecting inlet pipe or discharging pipe, the material pipe rotates to be connected on the connector, be provided with the temperature detection stick that is used for detecting material temperature in the material pipe, be provided with a plurality of temperature detection points on the temperature detection stick, be provided with flow automatically controlled valve on the inlet pipe, be provided with the controller that is used for controlling flow automatically controlled valve on the heating sterilization jar, be provided with on the heating sterilization jar and be used for driving a plurality of material pipe pivoted actuating assembly. This application has accelerated heat exchange efficiency, has improved the effect of sterilization.

Description

Pasteurization system

Technical Field

The present application relates to the field of pasteurization, and in particular to a pasteurization system.

Background

In the production of dairy products such as milk, pasteurization is generally used to sterilize the products. Pasteurization is mainly carried out by maintaining at a lower temperature (60-65 ℃) for 20-30 minutes or at a higher temperature (75-95 ℃) for tens of seconds to tens of seconds. Can not only ensure the killing of harmful microorganisms, but also extremely avoid the damage of high temperature to the nutrition and activity of the sterilized materials.

In the related art, sterilization is generally performed at a relatively high temperature (75 to 95 ℃) for several tens of seconds to several tens of seconds during continuous production of milk products. The pasteurization system mainly comprises a heating sterilization tank and a cooling tank, milk is introduced into the heating sterilization tank, the milk is sterilized by heating in a water bath in the heating sterilization tank, and the milk is introduced into the cooling tank for water bath cooling after sterilization is finished, so that the milk is sterilized.

Aiming at the related technology, the inventor finds that in the process of introducing milk into a heating sterilization tank for water bath heating sterilization, the heat transfer efficiency between the milk and hot water is lower, a certain time is required for heating the milk to a required temperature, and the sterilization time comprises the time of heating the milk, so that the milk sterilization effect is poor easily.

Disclosure of Invention

In order to improve the sterilization effect, the present application provides a pasteurization system.

The pasteurization system provided by the application adopts the following technical scheme:

the utility model provides a pasteurization system, includes heating sterilization jar, inlet pipe, discharging pipe and hot water circulating device, hot water circulating device and heating sterilization jar intercommunication, the heating sterilization jar rotation is provided with a plurality of material pipes, the axis of rotation of material pipe is along the length direction of material pipe, the both ends of material pipe all are provided with the connector that is used for connecting inlet pipe or discharging pipe, the material pipe rotates to be connected on the connector, be provided with the temperature detection stick that is used for detecting material temperature in the material pipe, be provided with a plurality of temperature check points on the temperature detection stick, be provided with the flow automatically controlled valve on the inlet pipe, be provided with the controller that is used for controlling the flow automatically controlled valve on the heating sterilization jar, the temperature check point detects the temperature of material when temperature check point detects the temperature and reaches the settlement temperature, the flow of controller control flow automatically controlled valve control material for the material reaches the setting time from the position that the temperature reached the settlement time of setting to the outflow heating sterilization jar, be provided with on the heating jar and be used for driving assembly that drives a plurality of material rotations.

Through adopting above-mentioned technical scheme, hot water circulating device lets in the heating sterilization jar with hot water, heat the material, drive a plurality of material pipe synchronous rotation through drive assembly, make the material pipe rotate in the heating sterilization jar, thereby stir simultaneously the hot water in the heating sterilization jar and the material in the material pipe, in order to improve the heat exchange efficiency between material pipe and the hot water, make the material in the material pipe can be rapid reach the settlement temperature, a plurality of temperature detection point detection material in the material pipe on the temperature detection stick detect the temperature of material in different positions simultaneously, when temperature detection point detects the temperature and reaches the settlement temperature, the flow of material is controlled to the automatically controlled valve of controller control flow, make the material reach the time of setting for the settlement time from the position that the setting value to outflow heating sterilization jar with accurate material sterilization's time, thereby reach best sterilizing effect, and reduce the destruction to the nutrient substance in the material, the sterilization efficiency of material has been improved in the setting up of a plurality of material pipes.

Optionally, the one end rotation of heating sterilization jar is provided with the gear, the axis of rotation of gear is along the length direction of heating sterilization jar, a plurality of material pipe circumference equipartition is at the outer edge of gear, drive assembly is including the cover setting up the ring gear on the material pipe, a plurality of the ring gear all meshes with the gear, and is adjacent have the clearance between the ring gear, be provided with on the heating sterilization jar and be used for driving gear pivoted motor.

Through adopting above-mentioned technical scheme, the starter motor, motor drive gear rotation, the gear drive a plurality of and gear engagement's ring gear rotate, and the ring gear drives the material pipe and rotates to the rotation to a plurality of material pipes, in order to realize stirring to hot water, thereby strengthen the heat transfer efficiency between material and the hot water, thereby reduce the material and reach the time of settlement temperature, in order to improve the sterilization effect.

Optionally, a stirring rod is arranged on the gear, the stirring rod extends into the heating sterilization tank, and the stirring rod is positioned between the material pipes.

Through adopting above-mentioned technical scheme, the gear drives the puddler and rotates when rotating, and the puddler stirs the hot water between a plurality of material pipes to the flow of hot water is convenient for, thereby is favorable to improving the heat transfer efficiency between hot water and the material, in order to the heating to the material.

Optionally, the adapter includes the adapter sleeve, adapter sleeve and inlet pipe or discharging pipe intercommunication, the material pipe rotates to be connected in the adapter sleeve, the tip cover of material pipe is equipped with the bearing, the outer lane of bearing and the inner wall butt of adapter sleeve, the tip of material pipe is provided with two spacing rings, the bearing is located between two spacing rings, the tip of adapter sleeve is provided with the seal end cover, seal end cover and spacing ring butt, wear to be equipped with fixing bolt on the seal end cover, fixing bolt and adapter sleeve threaded connection.

Through adopting above-mentioned technical scheme, peg graft the one end of material pipe in the adapter sleeve, two spacing rings have reduced the possibility of leaking between adapter and the material pipe, and the material pipe passes through the bearing and rotates to be connected in the adapter sleeve to the rotation of material pipe, limit the spacing ring roll-off adapter sleeve through the seal end cover, fixing bolt is fixed seal end cover, realizes the rotation connection between material pipe and inlet pipe or the discharging pipe, so that stir material and hot water.

Optionally, the two limiting rings are provided with O-shaped sealing rings.

By adopting the technical scheme, the O-shaped sealing ring on the limiting ring further reduces the possibility that materials flow out from the gap between the connecting sleeve and the material pipe, thereby reducing the pollution and waste of the materials.

Optionally, a plurality of conducting strips are uniformly distributed in the circumferential direction of the material pipe, one side of each conducting strip extends into the material pipe to be in contact with the material, and the other side extends out of the material pipe to be in contact with hot water.

Through adopting above-mentioned technical scheme, the heat transfer in the hot water is favorable to giving the material with the heat transfer in the hot water to the setting of conducting strip, and further improvement material and the heat transfer efficiency between the hot water, the conducting strip has played the effect of stirring leaf simultaneously, and further improvement has been heated to the material and the stirring effect of hot water for the material is heated more evenly fast, and the conducting strip has reduced the material raw milk phenomenon of condensing in the material intraductal simultaneously to the stirring of material, so that the material is in the transportation of conveying pipeline.

Optionally, the hot water circulating device includes constant temperature heating water tank, constant temperature heating water tank's play water end and the bottom intercommunication of heating sterilization jar, constant temperature heating water tank's the end of intaking and the top intercommunication of heating sterilization jar, constant temperature heating water tank's play water end is provided with the hot-water pump that is used for the pump hot water, be provided with temperature monitor on the constant temperature instant heating water tank.

Through adopting above-mentioned technical scheme, the constant temperature heating cabinet heats hot water to the temperature of settlement, pumps hot-water pump to the heating sterilization jar with hot-water pump in, heats the material pipe to make the material in the material pipe keep at invariable temperature, improve the effect of sterilization, reduce the destruction to material nutrient substance.

Optionally, still include cooling tank and cold water circulating device, the axis of heating sterilization tank is located same straight line with the axis of cooling tank, the material pipe passes the heating sterilization tank and extends to in the cooling tank, the material pipe rotates to be connected on the cooling tank, the discharging pipe is located the cooling tank and keeps away from the one end of heating sterilization tank, the material pipe passes cooling tank and discharging pipe intercommunication, cold water circulating device and cooling tank intercommunication.

Through adopting above-mentioned technical scheme, cold water circulating device sends into cold water and cools off the material pipe in the cooling jar, and the material pipe rotates to be connected to in the cooling jar to stir cold water, improve material refrigerated efficiency, and need not to additionally set up the driving piece, in order to improve the utilization ratio of energy.

Optionally, the cold water circulating device includes cold water cooling water tank, the play water end of cold water cooling water tank communicates with the one end of cooling tank, the inlet end of cold water cooling water tank communicates with the other end of cooling tank, the play water end of cold water cooling water tank is provided with the cold water pump that is used for the pump sending cold water.

Through adopting above-mentioned technical scheme, cold water cooling water tank cools down cold water, later sends cold water pump to cooling tank in through the cold water pump, realizes the cooling to the material.

In summary, the present application includes at least one of the following beneficial technical effects:

the hot water circulation device is used for introducing hot water into the heating sterilization tank to heat materials, the driving assembly drives the material pipes to synchronously rotate, so that the material pipes rotate in the heating sterilization tank, hot water in the heating sterilization tank and the materials in the material pipes are simultaneously stirred, so that the heat exchange efficiency between the material pipes and the hot water is improved, the materials in the material pipes can quickly reach set temperatures, a plurality of temperature detection points on the temperature detection rod detect the temperatures of the materials in different positions of the material pipes, when the temperature detection points detect that the temperatures reach the set temperatures, the controller controls the flow of the materials by the flow electric control valve, so that the time from the position where the temperatures reach the set values to the position where the materials flow out of the heating sterilization tank is set time, the sterilization time of the materials is accurate, the optimal sterilization effect is achieved, the damage to nutrient substances in the materials is reduced, and the sterilization efficiency of the materials is improved by the arrangement of the material pipes;

the heat conducting fin is arranged to be favorable for transferring heat in hot water to materials, heat transfer efficiency between materials and hot water is further improved, meanwhile, the heat conducting fin plays a role of stirring blades, stirring effects on materials and hot water are further improved, the materials are heated more uniformly and rapidly, and raw milk coagulation phenomenon of the materials in the material pipe is reduced when the materials are stirred by the heat conducting fin, so that the materials are conveyed in the conveying pipe.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present application.

Fig. 2 is a cross-sectional view of a heat sterilization tank according to an embodiment of the present application.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is an enlarged view of a portion B in fig. 2.

Reference numerals illustrate: 1. heating a sterilization tank; 2. a feed pipe; 3. a discharge pipe; 4. a connector; 41. connecting sleeves; 42. a bearing; 43. a limiting ring; 44. sealing the end cover; 45. a fixing bolt; 46. an O-shaped sealing ring; 5. a temperature detecting rod; 6. a flow electric control valve; 7. a controller; 8. a gear; 9. a toothed ring; 10. a motor; 11. a stirring rod; 12. a heat conductive sheet; 13. heating the water tank at constant temperature; 14. a hot water pump; 15. a temperature monitor; 16. cooling the tank; 17. a cold water cooling water tank; 18. a cold water pump; 19. and a material pipe.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-4.

The embodiment of the application discloses a pasteurization system. Referring to fig. 1 and 2, the pasteurization system comprises a heating sterilization tank 1, a feed pipe 2, a discharge pipe 3, a hot water circulation device, a cooling tank 16 and a cold water circulation device, wherein the hot water circulation device is communicated with the heating sterilization tank 1, the cooling tank 16 is communicated with the cold water circulation device, a plurality of material pipes 19 are rotationally connected in the heating sterilization tank 1, three material pipes 19 are arranged in the embodiment, different numbers of material pipes 19 can be arranged in other embodiments, the rotation axis of the material pipes 19 is along the length direction of the material pipes 19, two ends of the material pipes 19 are connected with connectors 4 for connecting the feed pipe 2 or the discharge pipe 3, and the material pipes 19 are rotationally connected on the connectors 4; a temperature detection rod 5 for detecting the temperature of the material is arranged in the material pipe 19, a plurality of temperature detection points are arranged on the temperature detection rod 5, the material pipe 2 is communicated with a flow electric control valve 6, the material pipe 2 is divided into three branch pipes which are respectively communicated with the three material pipes 19, and the flow electric control valve 6 is positioned on a main pipe of the material pipe 2; the heating sterilization tank 1 is provided with a controller 7 for controlling the flow electric control valve 6, a temperature detection point is electrically connected with the controller 7, the temperature of the material is detected by the temperature detection point, when the temperature detection point detects that the temperature reaches a set temperature, the controller 7 controls the flow of the material controlled by the flow electric control valve 6, so that the time from the position where the temperature reaches the set value to the time when the material flows out of the heating sterilization tank 1 is set time, and the heating sterilization tank 1 is provided with a driving component for driving a plurality of material pipes 19 to rotate.

The hot water circulation device is used for introducing hot water into the heating sterilization tank 1 to heat materials and rotating the material pipe 19, so that the hot water in the heating sterilization tank 1 and the materials in the material pipe 19 are simultaneously stirred to improve the heat exchange efficiency between the material pipe 19 and the hot water, the materials in the material pipe 19 can quickly reach a set temperature, a plurality of temperature detection points on the temperature detection rod 5 detect the temperatures of the materials in different positions of the material pipe 19, and when the temperature detection points detect that the temperatures reach the set temperature, the controller 7 controls the flow of the materials by the flow electric control valve 6, so that the time from the position of the temperature reaching the set value to the time of flowing out of the heating sterilization tank 1 is set time, and the time of sterilizing the materials is accurate, thereby achieving the optimal sterilization effect.

Referring to fig. 2, the one end that cooling tank 16 was kept away from to heating sterilization jar 1 rotates and is connected with gear 8, the axis of rotation of gear 8 is along the length direction of heating sterilization jar 1, the axis of rotation of gear 8 is located same straight line with the axis of heating sterilization jar 1, three material pipe 19 circumference equipartition is at the outer edge of gear 8, drive assembly includes fixed cover and establishes the ring gear 9 at the material pipe 19 tip, a plurality of ring gears 9 all mesh with gear 8, have the clearance between the adjacent ring gear 9, be connected with on the heating sterilization jar 1 and be used for driving gear 8 pivoted motor 10, motor 10's output shaft is connected with gear 8. The gear 8 is fixedly welded with a stirring rod 11, the stirring rod 11 extends into the heating sterilization tank 1, and the stirring rod 11 is positioned among the three material pipes 19.

The motor 10 is started, the motor 10 drives the gear 8 to rotate, the gear 8 drives a plurality of toothed rings 9 meshed with the gear 8 to rotate, the toothed rings 9 drive the animal feed pipes 19 to rotate, the gear 8 drives the stirring rod 11 to rotate while rotating, and the stirring rod 11 stirs hot water between the three material pipes 19, so that the heat transfer efficiency between materials and the hot water is enhanced, and the time for the materials to reach the set temperature is reduced.

Referring to fig. 2 and 3, three heat conducting fins 12 are uniformly distributed and fixed in the circumferential direction of the material pipe 19, one side of each heat conducting fin 12 extends into the material pipe 19 to be inserted into the material, the other side extends out of the material pipe 19 to be in contact with hot water, and the heat conducting fin 12 is made of metal with good heat conducting performance. The heat conducting strip 12 is favorable to giving the material with the heat transfer in the hot water on the one hand, further improvement material and the heat transfer efficiency between the hot water, and on the other hand the heat conducting strip 12 has played the effect of stirring leaf, stirs hot water and material simultaneously, has further improved the stirring effect to material and hot water for the material is heated more evenly fast, and the stirring of heat conducting strip 12 to the material has reduced the material simultaneously and has condensed the phenomenon in material pipe 19, so that the transportation of material in the conveying pipeline.

Referring to fig. 2 and 4, the adaptor comprises a connecting sleeve 41, the connecting sleeve 41 is communicated with a feed pipe 2 or a discharge pipe 3, a material pipe 19 is rotationally connected in the connecting sleeve 41, a bearing 42 is sleeved at the end part of the material pipe 19, the outer ring of the bearing 42 is abutted against the inner wall of the connecting sleeve 41, two limiting rings 43 are welded and fixed at the end part of the material pipe 19, the bearing 42 is clamped between the two limiting rings 43, a sealing end cover 44 is connected at the end part of the connecting sleeve 41, the sealing end cover 44 is abutted against the limiting rings 43, the end part of the material pipe 19 passes through the sealing end cover 44 and is connected in the connecting sleeve 41, a fixing bolt 45 is penetrated on the sealing end cover 44, and the fixing bolt 45 is in threaded connection with the connecting sleeve 41 to fix the sealing end cover 44; o-shaped sealing rings 46 are sleeved on the two limiting rings 43, and the O-shaped sealing rings 46 are positioned between the limiting rings 43 and the inner wall of the connecting sleeve 41 to seal the connecting sleeve 41 and the material pipe 19; one end of the temperature detecting rod 5 is fixed to the connecting sleeve 41. The rotary connection between the material pipe 19 and the feed pipe 2 or the discharge pipe 3 is achieved.

Referring to fig. 1, the hot water circulation device includes a constant temperature heating water tank 13, a water outlet end of the constant temperature heating water tank 13 is communicated with a bottom end of the heating sterilization tank 1, a water inlet end of the constant temperature heating water tank 13 is communicated with a top end of the heating sterilization tank 1, a water outlet end of the constant temperature heating water tank 13 is connected with a hot water pump 14 for pumping hot water, and a temperature monitor 15 is connected to the constant temperature instant hot water tank. The constant temperature heating box heats the hot water to a set temperature, pumps the hot water into the heating sterilization tank 1 through the hot water pump 14, and heats the material pipe 19 so as to maintain the material in the material pipe 19 at a constant temperature.

Referring to fig. 1, the central axis of the heating sterilization tank 1 and the central axis of the cooling tank 16 are located on the same straight line, a material pipe 19 passes through the heating sterilization tank 1 and extends into the cooling tank 16, the material pipe 19 is rotationally connected to the cooling tank 16, a discharging pipe 3 is located at one end of the cooling tank 16 far away from the heating sterilization tank 1, the material pipe 19 passes through the cooling tank 16 and is communicated with the discharging pipe 3, a cold water circulating device is communicated with the cooling tank 16, and a heat conducting fin 12 is arranged on the part of the material pipe 19 located in the cooling tank 16 in the same direction. The cold water circulation device comprises a cold water cooling water tank 17, the water outlet end of the cold water cooling water tank 17 is communicated with one end of a cooling tank 16, the water inlet end of the cold water cooling water tank 17 is communicated with the other end of the cooling tank 16, and the water outlet end of the cold water cooling water tank 17 is connected with a cold water pump 18 for pumping cold water.

The cold water cooling water tank 17 cools down cold water, and the cold water pump 18 is carried cold water pump and is cooled down material pipe 19 in cooling jar 16, and material pipe 19 rotates and connects in cooling jar 16, and the conducting strip 12 on the material pipe 19 stirs cold water and material simultaneously, improves material refrigerated efficiency to need not to additionally set up the driving piece, in order to improve the utilization ratio of energy.

The implementation principle of the pasteurization system in the embodiment of the application is as follows: the hot water pump 14 is used for introducing hot water into the heating sterilization tank 1 to heat materials, the motor 10 is started, the motor 10 drives the gear 8 to rotate, the gear 8 drives the three toothed rings 9 to rotate, and the toothed rings 9 drive the animal material pipes 19 to synchronously rotate, so that the hot water in the heating sterilization tank 1 and the materials in the material pipes 19 are simultaneously stirred, the heat exchange efficiency between the material pipes 19 and the hot water is improved, the materials in the material pipes 19 can quickly reach a set temperature, a plurality of temperature detection points on the temperature detection rod 5 detect the temperatures of the materials in different positions of the material pipes 19, and when the temperature detection points detect that the temperatures reach the set temperature, the controller 7 controls the flow of the materials by the flow electric control valve 6, so that the time from the position of the temperature reaching the set value to the time of flowing out of the heating sterilization tank 1 is the set time, and the time of sterilizing the materials is accurate, and the optimal sterilizing effect is achieved; the sterilized material enters the cooling tank 16 along the material pipe 19, the cold water is cooled by the cold water cooling water tank 17, the cold water pump 18 sends the cold water pump 18 into the cooling tank 16 to cool the material pipe 19, the material pipe 19 which rotates drives the heat conducting fin 12 to rotate, and the heat conducting fin 12 on the material pipe 19 stirs the cold water and the material at the same time, so that the material cooling efficiency is improved.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims

1. The utility model provides a pasteurization system, includes heating sterilization jar (1), inlet pipe (2), discharging pipe (3) and hot water circulating device, its characterized in that: the utility model provides a hot water circulating device and heat sterilization jar (1) intercommunication, heat sterilization jar (1) internal rotation is provided with a plurality of material pipes (19), the axis of rotation of material pipe (19) is along the length direction of material pipe (19), the both ends of material pipe (19) all are provided with connector (4) that are used for connecting inlet pipe (2) or discharging pipe (3), material pipe (19) rotate and connect on connector (4), be provided with temperature detection stick (5) that are used for detecting material temperature in material pipe (19), be provided with a plurality of temperature check points on temperature detection stick (5), be provided with flow automatically controlled valve (6) on inlet pipe (2), be provided with on heat sterilization jar (1) and be used for controlling controller (7) of flow automatically controlled valve (6), temperature check point and controller (7) electricity are connected, temperature check point detects the temperature of material when temperature check point detects the temperature and reaches the settlement temperature, controller (7) control flow automatically controlled valve (6) control material flow for the setting for the time of setting for the material from the heating element (1) to the setting for a plurality of sterilization jar (1) that rotate.

2. A pasteurization system according to claim 1, characterized in that: the one end rotation of heat sterilization jar (1) is provided with gear (8), the length direction of rotation axis along heat sterilization jar (1) of gear (8), a plurality of material pipe (19) circumference equipartition is at the outer edge of gear (8), drive assembly is including cover tooth ring (9) of establishing on material pipe (19), and a plurality of tooth ring (9) all meshes with gear (8), adjacent have the clearance between tooth ring (9), be provided with on heat sterilization jar (1) and be used for driving gear (8) pivoted motor (10).

3. A pasteurization system according to claim 2, characterized in that: the stirring rod (11) is arranged on the gear (8), the stirring rod (11) extends into the heating sterilization tank (1), and the stirring rod (11) is positioned between the material pipes (19).

4. A pasteurization system according to claim 1, characterized in that: the adapter comprises a connecting sleeve (41), the connecting sleeve (41) is communicated with a feeding pipe (2) or a discharging pipe (3), a material pipe (19) is rotationally connected in the connecting sleeve (41), a bearing (42) is sleeved at the end part of the material pipe (19), the outer ring of the bearing (42) is in butt joint with the inner wall of the connecting sleeve (41), two limiting rings (43) are arranged at the end part of the material pipe (19), the bearing (42) is located between the two limiting rings (43), a sealing end cover (44) is arranged at the end part of the connecting sleeve (41), a fixing bolt (45) is arranged on the sealing end cover (44) in a penetrating mode, and the fixing bolt (45) is in threaded connection with the connecting sleeve (41).

5. A pasteurization system according to claim 4, characterized in that: o-shaped sealing rings (46) are arranged on the two limiting rings (43).

6. A pasteurization system according to claim 1, characterized in that: a plurality of heat conducting fins (12) are uniformly distributed in the circumferential direction of the material pipe (19), one side of each heat conducting fin (12) extends into the material pipe (19) to be in contact with materials, and the other side of each heat conducting fin extends out of the material pipe (19) to be in contact with hot water.

7. A pasteurization system according to claim 1, characterized in that: the hot water circulating device comprises a constant temperature heating water tank (13), the water outlet end of the constant temperature heating water tank (13) is communicated with the bottom end of the heating sterilization tank (1), the water inlet end of the constant temperature heating water tank (13) is communicated with the top end of the heating sterilization tank (1), the water outlet end of the constant temperature heating water tank (13) is provided with a hot water pump (14) for pumping hot water, and a temperature monitor (15) is arranged on the constant temperature instant heating water tank.

8. A pasteurization system according to claim 1, characterized in that: still include cooling jar (16) and cold water circulating device, the axis of heating sterilization jar (1) is located same straight line with the axis of cooling jar (16), material pipe (19) pass heating sterilization jar (1) and extend to cooling jar (16), material pipe (19) rotate and connect on cooling jar (16), discharging pipe (3) are located cooling jar (16) and keep away from the one end of heating sterilization jar (1), material pipe (19) pass cooling jar (16) and discharging pipe (3) intercommunication, cold water circulating device and cooling jar (16) intercommunication.

9. A pasteurization system according to claim 8, characterized in that: the cold water circulation device comprises a cold water cooling water tank (17), the water outlet end of the cold water cooling water tank (17) is communicated with one end of a cooling tank (16), the water inlet end of the cold water cooling water tank (17) is communicated with the other end of the cooling tank (16), and the water outlet end of the cold water cooling water tank (17) is provided with a cold water pump (18) for pumping cold water.