CN209808083U - Instant fresh grinding pulping machine - Google Patents

Abstract

The utility model discloses an instant fresh grinding pulping machine, which relates to the relevant technical field of soybean milk preparation, and comprises a machine body base, wherein a multi-station circulating cooking mechanism, a spiral quantitative feeding mechanism, a pulping mechanism, a non-contact solenoid heating mechanism communicated with the closed circulation of the pulping mechanism, a finished product caching mechanism communicated with the pulping mechanism, and a water flow power quantitative sugar adding mechanism arranged above the finished product caching mechanism are arranged on the machine body base, the structural process design of the multi-station circulating cooking mechanism is adopted, the automation of the whole preparation process is realized, the problem that dry beans can not be instantly pulped is solved, the taste of the soybean milk is simultaneously improved, the user experience is improved, the food safety is improved, the machine is mainly suitable for all-weather unattended places, the machine can provide service for users in stations, remote areas and special environments, and better service is provided while the operation maintenance cost is reduced, therefore, the utility model is suitable for chain enterprises to popularize all over the country, and the economic benefit and the social benefit are obvious.

Description

Instant fresh grinding pulping machine

Technical Field

The utility model relates to a soybean milk preparation correlation technique field particularly, relates to instant bright mill pulping machine.

Background

At present, the existing soybean milk machines are often matched with each other by manual real-time value watching in the using process, the soybean milk preparation process is single, the soybean milk preparation process is not fine and intelligent enough, the adaptability to different use environments is poor, the soybean milk machine is not suitable for the large-batch user requirements of on-site preparation and instant drinking, most of the soybean milk machines are prepared in advance and then stored for sale, and the food safety is caused by the easy deterioration of the characteristic that fresh soybean milk is not easy to store.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned technical problem among the correlation technique, the utility model provides an instant bright mill pulping machine can overcome prior art's the aforesaid not enough.

In order to achieve the technical purpose, the technical scheme of the utility model is realized as follows:

instant fresh grinding pulping machine, including the organism base, be provided with the multistation circulation on the organism base and cook the mechanism, cook the spiral ration of mechanism upper end intercommunication with the multistation circulation reinforced mechanism, cook the pulping mechanism of mechanism lower extreme intercommunication with the multistation circulation, with the non-contact screwed pipe heating mechanism of the mechanism closed circulation intercommunication of pulping, with the finished product buffer memory mechanism of pulping and mechanism intercommunication and set up the rivers power ration sugaring mechanism above finished product buffer memory mechanism, the multistation circulation is cooked the mechanism and is cooked the mechanism base including being fixed in on the organism base, with the mechanism base connection's of cooking valve control part, around the six station boiler that cook mechanism base center main shaft gyration and set up the boiler part on six station boiler each stations.

Further, the machine body base comprises a base plate, three machine base stand columns arranged on the base plate and a universal wheel set arranged at the bottom of the base plate.

Further, the base of the cooking mechanism comprises base upright columns which are arranged on the base upright columns and correspond to the base upright columns, a lower base plate and an upper base plate which are respectively arranged at the upper end and the lower end of each base upright column, a spindle motor and a fixing piece which are arranged on the upper base plate, and a feeding pipe fitting and a water injection pipe which are arranged on the fixing piece; and a water injection electromagnetic valve is arranged on the water injection pipe pipeline.

Furthermore, the six-station boiler comprises a spindle seat, a spindle arranged on the spindle seat and in transmission connection with the output end of the spindle motor, a boiler fastening disc arranged on the spindle, and fastening disc clamping blocks arranged at each station of the boiler fastening disc.

Further, the digester component comprises a digester container arranged at the digester fastening disc station, a digester inlet butterfly valve arranged at an inlet at the top end of the digester container, and a digester outlet butterfly valve arranged at an outlet at the bottom of the digester container; a pressure relief exhaust pipe is arranged at the upper end of the cooking container, close to a butterfly valve of a cooking inlet, a cooker heating element is sleeved at the lower part of the cooking container, and a cooking temperature sensor is arranged at one end, far away from the cooker heating element, of the outer wall of the cooking container; an inlet butterfly valve switch handle is fixedly connected to the cooking inlet butterfly valve through bolts, and an outlet butterfly valve switch handle is arranged on the cooking outlet butterfly valve.

Furthermore, the cooking valve control part comprises a guide sliding block arranged on the base stand columns, an actuator mounting seat extends on the guide sliding block, a valve actuator with an actuator handle is arranged on the actuator mounting seat, and a positioning base plate and a positioning shaft sleeve which are respectively fixed on each base stand column are arranged on the outer side of the guide sliding block.

Further, the spiral quantitative feeding mechanism comprises a feeding motor, a raw material container and a feeding pipe which are arranged on the base stand column, the bottom of the feeding pipe is communicated with the feeding hopper, the top of the feeding pipe is communicated with a discharging hopper communicated with a feeding pipe fitting, the output end of the feeding motor is connected with a screw rod which sequentially penetrates through the feeding hopper, the feeding pipe and the discharging hopper, a screw rod shaft seat connected with the screw rod is arranged at the top of the discharging hopper, the bottom of the raw material container is communicated with the feeding hopper, a raw material sensor is arranged at the outer wall of the lower end of the raw material container, the raw material container is fixedly connected onto the base stand column through a container fixing part, the feeding motor is fixedly connected onto the base stand column through a motor fixing part, and the feeding pipe is fixedly connected.

Further, the pulping mechanism comprises a pulping container, a pulping machine arranged at the bottom of the pulping container and a discharging cone hopper communicated with the pulping container through a pulping inlet butterfly valve, the discharging cone hopper is arranged right below a digester component corresponding to an outlet of a feeding pipe fitting, a pulping temperature sensor and a circulating pulping inlet are arranged on the pulping container, and the pulping machine comprises a pulping outlet communicated with the non-contact solenoid heating mechanism;

the non-contact solenoid heating mechanism comprises a shell, a heating element arranged in the shell and a stainless steel heated solenoid arranged around the heating element, wherein two ends of the stainless steel heated solenoid are respectively communicated with the circulating grinding inlet and the grinding outlet, a heat insulating material and a heating temperature sensor arranged on the shell are arranged between the stainless steel heated solenoid and the shell.

Further, rivers power ration sugaring mechanism is including adding the sugaring container and setting up the driving lever in adding the sugaring container, add the eccentric motor that is provided with sugaring container sensor and output and driving lever center under the sugaring container bottom plate, add the sugaring container bottom plate set up with adding the butt joint mouth of sugaring container pipe connection, it is equipped with the feed opening to add sugaring container pipe bottom, the feed opening department that adds the sugaring container pipe passes through screw and gasket fixedly connected with steam spacer, it is equipped with the hot thick liquid entry to be close to feed opening department to add sugaring container pipe lower part lateral wall.

Further, finished product buffer memory mechanism includes the buffer memory container, buffer memory container top adds the sugar mouth, the pipe wall that contains feed opening and hot thick liquid entry on the sugar container pipe passes add the sugar mouth and set up in the buffer memory container, the hot thick liquid entry passes buffer memory container lateral wall is connected with the buffer memory motorised valve, the buffer memory motorised valve is connected with first drainage motorised valve and second tee bend respectively through first tee bend, the second tee bend communicates with the spiral shell pipe one end that is heated with the mill thick liquid export and stainless steel respectively, buffer memory container bottom is connected with filling joint and second drainage solenoid valve respectively through the third tee bend, first drainage motorised valve and second drainage solenoid valve respectively are connected with a waste water and connect, be equipped with the motor pump between buffer memory container and the third tee bend.

The utility model has the advantages that: the utility model discloses instant bright pulping machine that grinds, adopt the structural technology design that the mechanism was cooked in multistation circulation, realize the automation of whole preparation process, make the process of freshly squeezing the soybean milk be desirable immediately, this process of cooking has fine promotion to the soybean milk taste, user experience is greatly improved, the food security of soybean milk has been improved simultaneously, in addition, all-weather work unmanned on duty has still been realized, at the station, remote area, special environment can both provide the service for the user, the better service has been provided when reducing operation maintenance cost, consequently, be fit for chain enterprise with the invention popularization nationwide, economic benefits and social are showing.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic perspective view of an instant fresh pulping machine according to an embodiment of the present invention;

fig. 2 is a schematic perspective view of a multi-station circulation cooking mechanism in an instant fresh grinding pulper according to an embodiment of the present invention;

fig. 3 is a schematic perspective exploded view of a boiler component of an instant fresh refiner according to an embodiment of the present invention;

fig. 4 is a schematic perspective view of a cooking valve control unit in the instant fresh grinding pulper according to an embodiment of the present invention;

fig. 5 is a schematic perspective view of a six-station digester in an instant fresh pulping machine according to an embodiment of the present invention;

fig. 6 is a schematic perspective view of a cooking mechanism base in an instant fresh grinding pulper according to an embodiment of the present invention;

fig. 7 is a schematic perspective view of a spiral quantitative feeding mechanism in an instant fresh grinding pulper according to an embodiment of the present invention;

fig. 8 is a schematic perspective view of a pulp refining mechanism in the instant fresh pulp refiner according to an embodiment of the present invention;

fig. 9 is a schematic perspective view of a product buffer mechanism in the instant fresh pulping machine according to an embodiment of the present invention;

fig. 10 is a schematic perspective view of a non-contact solenoid heating mechanism in an instant fresh grinding pulper according to an embodiment of the present invention;

fig. 11 is a schematic perspective view of a hydrodynamic quantitative sugar adding mechanism in an instant fresh grinding pulper according to an embodiment of the present invention;

fig. 12 is a schematic perspective view of a cooking mechanism base in an instant fresh grinding pulper according to an embodiment of the present invention;

1. a multi-station circulating cooking mechanism; 2. a spiral quantitative feeding mechanism; 3. a pulping mechanism; 4. a non-contact solenoid heating mechanism; 5. a finished product caching mechanism; 6. a water flow power quantitative sugar adding mechanism; 7. a machine body base; 11. a boiler section; 12. a cooking mechanism base; 13. a cooking valve control part; 14. a multi-station digester; 111. a cooking inlet butterfly valve; 112. a cooking outlet butterfly valve; 113. an inlet butterfly valve switch handle; 114. a pressure relief exhaust pipe; 115. a bolt; 116. a cooking vessel; 117. a boiler heating element; 118. a cooking temperature sensor; 119. an outlet butterfly valve switch handle; 121. a lower substrate; 122. an upper substrate 123, a spindle motor; 124. a base column; 125. a feeding pipe fitting; 126. a water injection pipe; 127. a fixing member; 128. a water injection solenoid valve; 131. a valve actuator; 132. positioning the base plate; 133. positioning the shaft sleeve; 134. a guide slider; 135. an actuator mounting base; 136. an actuator handle; 141. a main shaft; 142. tightly fixing the plate of the digester; 143. tightly fixing the disc clamping block; 144. a main shaft seat; 20. a container securing member; 21. a discharge hopper; 22. a screw shaft seat; 23. a screw; 24. a solenoid mount; 25. feeding a hopper; 26. a feeding motor; 27. a motor fixing member; 28. a raw material container; 29. feeding pipes; 31. a blanking cone hopper; 32 a pulp inlet butterfly valve; 33. a pulping container; 34. pulping machine; 35. a circulating pulp grinding inlet; 36. a pulp grinding outlet; 37. a grinding temperature sensor; 41. a housing; 42. a thermal insulation material; 43. a stainless steel heated coil; 44. a heating element; 45. a heating temperature sensor; 51. a cache container; 52. a first exhaust electric valve; 53. a second drain solenoid valve; 54. caching the electric valve; 55. filling a joint; 56. a wastewater joint; 57. adding sugar; 581. a first tee joint; 582. a second tee joint; 583. a third tee joint; 59. an electric pump; 60. a butt joint port; 61. a vessel conduit for the sugar addition; 62. a sugar adding container; 63. an eccentric motor; 64. a steam spacer; 65; a screw; 66. a gasket; 67. a feeding port; 68. a hot slurry inlet; 69. a deflector rod; 71. a base plate; 72. a stand column of the machine base; 73. a universal wheel set.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art all belong to the protection scope of the present invention.

As shown in fig. 1 to 12, the instant fresh refiner according to an embodiment of the present invention includes a machine body base 7, the machine body base 7 is provided with a multi-station circulating cooking mechanism 1, a spiral quantitative feeding mechanism 2 communicated with the upper end of the multi-station circulating cooking mechanism 1, a pulping mechanism 3 communicated with the lower end of the multi-station circulating cooking mechanism 1, a non-contact type solenoid heating mechanism 4 communicated with the pulping mechanism 3 in a closed circulating way, a finished product caching mechanism 5 communicated with the pulping mechanism 3, and a water flow power quantitative sugar adding mechanism 6 arranged above the finished product caching mechanism 5, the multi-station circulating cooking mechanism 1 comprises a cooking mechanism base 12 fixed on the machine body base 7, a cooking valve control part 13 connected with the cooking mechanism base 12, a multi-station cooker 14 rotating around a central main shaft of the cooking mechanism base 12, and cooker parts 11 arranged on each station of the multi-station cooker 14.

In this embodiment, the machine base 7 includes a base plate 71, three machine base columns 72 disposed on the base plate 71, and a universal wheel set 73 disposed at the bottom of the base plate 71.

In this embodiment, the cooking mechanism base 12 includes base columns 124 disposed on the base columns 72 and corresponding to the base columns 72, a lower substrate 121 and an upper substrate 122 disposed at the upper and lower ends of each base column 124, respectively, a spindle motor 123 and a fixing member 127 disposed on the upper substrate 122, and a feeding pipe 125 and a water injection pipe 126 disposed on the fixing member 127; the water injection pipe 126 is provided with a water injection solenoid valve 128.

In this embodiment, the multi-station cooker 14 includes a spindle base 144, a spindle 141 disposed on the spindle base 144 and in transmission connection with the output end of the spindle motor 123, a cooker fastening disc 142 disposed on the spindle 141, and fastening disc clamping blocks 143 disposed at each station of the cooker fastening disc 142.

In this embodiment, the boiler section 11 comprises a cooking vessel 116 disposed at a station of the boiler fastening disk 142, a cooking inlet butterfly valve 111 disposed at an inlet at a top end of the cooking vessel 116, and a cooking outlet butterfly valve 112 disposed at an outlet at a bottom of the cooking vessel 116; a pressure relief exhaust pipe 114 is arranged at the upper end of the cooking container 116 close to the cooking inlet butterfly valve 111, a cooker heating element 117 is sleeved at the lower part of the cooking container 116, and a cooking temperature sensor 118 is arranged at one end of the outer wall of the cooking container 116, which is far away from the cooker heating element 117; an inlet butterfly valve switch handle 113 is fixedly connected to the cooking inlet butterfly valve 111 through a bolt 115, and an outlet butterfly valve switch handle 119 is arranged on the cooking outlet butterfly valve 112.

In this embodiment, the cooking valve control part 13 includes a guiding slider 134 disposed on the base upright 124, an actuator mounting seat 135 extends from the guiding slider 134, a valve actuator 131 having an actuator handle 136 is disposed on the actuator mounting seat 135, and a positioning base plate 132 and a positioning shaft sleeve 133 fixed to each base upright 124 are disposed outside the guiding slider 134.

In this embodiment, the screw quantitative charging mechanism 2 comprises a charging motor 26, a raw material container 28 and a charging pipe 29 which are arranged on the base upright post 124, the bottom of the feeding pipe 29 is communicated with a feeding hopper 25, the top of the feeding pipe 29 is communicated with a discharging hopper 21 communicated with a feeding pipe fitting 125, the output end of the feeding motor 26 is connected with a screw 23 which sequentially passes through the feeding hopper 25, the feeding pipe 29 and the discharging hopper 21, the top of the discharge hopper 21 is provided with a screw shaft seat 22 connected with a screw 23, the bottom of the raw material container 28 is communicated with an upper hopper 25, the outer wall of the lower end of the raw material container 28 is provided with a raw material sensor 80, the raw material container 28 is fixedly connected to the base upright post 124 through a container fixing part 20, the feeding motor 26 is fixedly connected to the base upright 124 through a motor fixing member 27, the feeding pipe 29 is fixedly connected to the base upright 124 through the solenoid fixing member 24.

In this embodiment, the refining mechanism 3 includes a refining container 33, a refiner 34 disposed at the bottom of the refining container 33, and a discharge cone 31 communicated with the refining container 33 through a refining inlet butterfly valve 32, the discharge cone 31 is disposed right below the corresponding boiler part 11 at the outlet of the feeding pipe 125, the refining container 33 is provided with a refining temperature sensor 37 and a circulating refining inlet 35, and the refiner 34 includes a refining outlet 36 communicated with the non-contact solenoid heating mechanism 4;

the non-contact type solenoid heating mechanism 4 comprises a shell 41, a heating element 44 arranged in the shell 41 and a stainless steel heated solenoid 43 arranged around the heating element 44, wherein two ends of the stainless steel heated solenoid 43 are respectively communicated with the circulating refining inlet 35 and the refining outlet 36, a heat insulating material 42 is arranged between the stainless steel heated solenoid 43 and the shell 41, and a heating temperature sensor 45 is arranged on the shell 41.

In this embodiment, water flow power ration sugaring mechanism 6 is including sugaring container 62 and the driving lever 69 of setting in sugaring container 62, be provided with sugaring container sensor 81 and the eccentric motor 63 of output and driving lever 69 central connection under the sugaring container 62 bottom plate, sugaring container 62 bottom plate is seted up and is connected to interface 60 with sugaring container pipe 61, sugaring container pipe 61 bottom is equipped with feed opening 67, sugaring container pipe 61's feed opening 67 department is through screw 65 and gasket 66 fixedly connected with steam spacer 64, sugaring container pipe 61 lower part lateral wall is close to feed opening 67 department and is equipped with hot thick liquid entry 68.

In this embodiment, the finished product buffer mechanism 5 includes a buffer container 51, a sugar adding opening 57 at the top of the buffer container 51, the tube wall of the conduit 61 of the sugar adding container, which comprises a feed opening 67 and a hot slurry inlet 68, is arranged in the buffer container 51 through the sugar adding opening 57, the hot slurry inlet 68 is connected with a buffer electric valve 54 through the side wall of the buffer container 51, the buffer electric valve 54 is connected with a first exhaust electric valve 52 and a second tee 582 through a first tee 581 respectively, the second tee 582 is respectively communicated with the refining outlet 36 and one end of the stainless steel heated solenoid 43, the bottom of the buffer container 51 is connected with a filling joint 55 and a second water discharge electromagnetic valve 53 through a third tee 583 respectively, the first drainage electric valve 52 and the second drainage electromagnetic valve 53 are respectively connected with a waste water joint 56, and an electric pump 59 is arranged between the buffer container 51 and the third tee 583.

When specifically using, the utility model discloses the concrete work flow of instant bright pulping machine includes:

s1: when the machine is started and the machine receives a work order, the feeding motor 26 starts to operate to convey the soybeans in the raw material container 28 to the top discharging hopper 21 through the screw 23 and the feeding pipe 29 and feed the soybeans into the boiler part 11 through the feeding pipe 125, the cooking inlet butterfly valve 111 is opened, the cooking outlet butterfly valve 112 is closed, the feeding solenoid valve 128 is opened while the municipal tap water is fed into the boiler part 11 through the water feeding pipe 126, and the feeding motor 26 and the water solenoid valve 128 are closed after the raw materials and the water reach the values set by the program.

S2: the spindle motor 123 starts to operate, and stops after rotating 60 degrees, the boiler unit 11 at the next station performs the same operation as step S1, at this time, the boiler heating element 117 of the boiler unit 11 which has been charged at step S1 is energized to start heating, the temperature is monitored and feedback-controlled in a closed loop by the boiler temperature sensor 118, and when the predetermined time and temperature are reached, the boiler heating element 117 is de-energized, and the pressure steam is discharged through the relief vent 114.

S3: and (3) circularly executing the steps S1 and S2 until the main shaft motor 123 rotates 360 degrees, namely completing a cooking cycle, wherein the soybeans are cooked in the cooker part 11 of the initial station, the cooking inlet butterfly valve 111 and the cooking outlet butterfly valve 112 are opened simultaneously, the cooked soybeans enter the grinding container 33 through the discharging cone hopper 31, the water injection solenoid valve 128 is opened to inject municipal tap water into the grinding container 33 to filter and wash the cooked soybeans, the first water discharge solenoid valve 52 is closed to discharge the wastewater of the filtered and washed soybeans when the water injection solenoid valve 128 reaches a preset water level, the first water discharge solenoid valve 52 is closed after the wastewater is discharged, and at the moment, the water injection solenoid valve 128 is opened again to inject clean water until the preset water level and then is stopped.

S4: the refiner 34 receives the instruction action, the first drainage electric valve 52 and the buffering electric valve 54 are all closed during the refining process, the refiner 34 conveys the soybean milk to the stainless steel heated solenoid 43 in the non-contact solenoid heating mechanism 4 through the refining outlet 36 and the second tee 582 by a self-contained pump and conveys the soybean milk to the circulating refining inlet 35 to reach the refining container 33, so that circulating refining is formed, and the particles and the liquid are highly fused to achieve the best taste. In the process, the heating element 44 is energized, and the heating element 44 is de-energized when the refining temperature sensor 37 detects that the temperature reaches a predetermined value, and further, the power supply to the heating element 44 is immediately cut off when the heating temperature sensor 45 detects that the internal temperature of the non-contact type coil heating means 4 exceeds a safe value.

S5: after the time of grinding the soybean milk reaches a preset value, the cache electric valve 54 is opened, meanwhile, the eccentric motor 63 in the water flow power quantitative sugar adding mechanism 6 is electrified to work, white granulated sugar particles in the sugar adding container 62 are filled into the sugar adding container conduit 61 through the action of the shift lever 69, the boiled hot soybean milk in the pulping machine 34 is conveyed to the cache container 51 through the pulping outlet 36, the second tee 582, the first tee 581 and the cache electric valve 54 in sequence, in the conveying process, the hot soybean milk passes through the hot soybean milk inlet 68 of the water flow power quantitative sugar adding mechanism 6 at a high speed, and the high-flow-rate hot soybean milk impacts the white granulated sugar to be mixed with the hot soybean milk and then flows into the cache container 51 through the discharge port 67;

in doing so, the steam spacer 64 serves to prevent backflow of hot steam into the vessel conduit 61; the temperature is quickly reduced in the process of dissolving the white granulated sugar in the hot soybean milk, the mouth can be prevented from being scalded when drinking, and the purpose of instant drinking by the instant soybean milk maker is well realized.

S6: the electric pump 59 receives the output instruction and performs electrifying action, at the moment, the second water discharging electric valve 53 is in a closed state, the hot soybean milk is output to the filling joint 55 through the third tee 583, and finally the hot soybean milk is filled into a cup through a silica gel hose or is led to automatic packaging equipment, so that the whole manufacturing process is completed.

In addition, the equipment also comprises self-cleaning and self-maintenance steps,

s7: when the machine receives a cleaning instruction, the water injection solenoid valve 128 is opened to quantitatively inject water into the boiler part 11 one by one, at this time, the cooking inlet butterfly valve 111 is opened until the water amount reaches a preset value and then is closed, the cooking outlet butterfly valve 112 is kept closed, meanwhile, the heating element 117 of the cooker is electrified to work, the heating element 117 of the cooker is powered off after the temperature detected by the temperature sensor 118 of the cooker reaches a preset value, when the boiler section 11 is rotated to correspond to the feed cone 31, the cooking outlet butterfly valve 112 opens the hot water feed into the refining vessel 33, at which point the refiner 34 is energized to operate high temperature water flow circulating back to the circulating refining inlet 35 via the refiner outlet 36 and the first tee fitting 581, at which point the first drain and buffer valves 52, 54 are closed, the first drain valve 52 opens after a predetermined time of cleaning, and the waste water is drained from the machine via the first drain valve 52 and waste water connection 56.

Similarly, if no product soybean milk exists in the 51_ cache container or a small amount of remaining soybean milk exists, the machine is cleaned by a preset program, and the soybean milk is discarded when the fresh-keeping time is exceeded so as to ensure food safety, at the moment, the first drainage electric valve 52 is closed, the cache electric valve 54 is opened, the eccentric motor 63 is closed, the electric pump 59 is electrified to work, and meanwhile, the second drainage electric valve 53 is opened to discharge the wastewater out of the machine body; the whole cleaning process is finished.

S8: the machine is self-maintained, the raw material sensor 80 monitors the raw material soybean surplus at any time in work, the sugar container sensor 81 monitors the raw material white granulated sugar surplus at any time in work, and if the surplus is insufficient, the device sends information to an after-sales maintenance center to prompt maintenance personnel to supplement the raw materials at any time.

To sum up, the utility model discloses instant bright fiberizer that grinds adopts the structural technology design that the mechanism was cooked in multistation circulation, realize the automation of whole preparation process, make the process of freshly squeezing the soybean milk be desirable immediately, this process of cooking has fine promotion to the soybean milk taste, user experience is greatly improved, the food security of soybean milk has been improved simultaneously, in addition, all-weather work unmanned on duty has still been realized, can both provide the service for the user at the station, remote area, special environment, provide more excellent service when reducing the operation maintenance cost, consequently, be fit for chain enterprise with the invention popularization nationwide, economic benefits and social are showing.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The instant fresh grinding pulping machine is characterized by comprising a machine body base (7), wherein the machine body base (7) is provided with a multi-station circulating cooking mechanism (1), a spiral quantitative feeding mechanism (2) communicated with the upper end of the multi-station circulating cooking mechanism (1), a pulping mechanism (3) communicated with the lower end of the multi-station circulating cooking mechanism (1), a non-contact solenoid heating mechanism (4) communicated with the pulping mechanism (3) in a closed circulating manner, a finished product caching mechanism (5) communicated with the pulping mechanism (3), and a water flow power quantitative sugar adding mechanism (6) arranged above the finished product caching mechanism (5), wherein the multi-station circulating cooking mechanism (1) comprises a cooking mechanism base (12) fixed on the machine body base (7), a cooking valve control component (13) connected with the cooking mechanism base (12), and a multi-station cooking device (14) rotating around a central main shaft of the cooking mechanism base (12), And boiler parts (11) arranged at each station of the multi-station boiler (14).

2. The instant fresh refiner as defined in claim 1, wherein the machine body base (7) comprises a base plate (71), three machine base uprights (72) arranged on the base plate (71), and a universal wheel set (73) arranged at the bottom of the base plate (71).

3. The instant fresh mill pulper of claim 2, wherein said cooking mechanism base (12) comprises a base column (124) disposed on a base column (72) and corresponding to the base column (72), a lower base plate (121) and an upper base plate (122) disposed at upper and lower ends of each base column (124), respectively, a spindle motor (123) and a fixing member (127) disposed on said upper base plate (122), and a feeding pipe (125) and a water injection pipe (126) disposed on the fixing member (127); and a water injection solenoid valve (128) is arranged on the pipeline of the water injection pipe (126).

4. The instant fresh mill pulper of claim 3, wherein said multi-station boiler (14) comprises a spindle base (144), a spindle (141) arranged on said spindle base (144) in driving connection with an output of said spindle motor (123), a boiler clamping disc (142) arranged on said spindle (141), and clamping disc clamping blocks (143) arranged at each station of said boiler clamping disc (142).

5. The instant fresh mill pulper according to claim 4, characterised in that said digester component (11) comprises a cooking vessel (116) arranged at a digester clamping disc (142) station, a cooking inlet butterfly valve (111) arranged at the top inlet of the cooking vessel (116), and a cooking outlet butterfly valve (112) arranged at the bottom outlet of the cooking vessel (116); a pressure relief exhaust pipe (114) is arranged at the upper end of the cooking container (116) close to the cooking inlet butterfly valve (111), a cooker heating element (117) is sleeved at the lower part of the cooking container (116), and a cooking temperature sensor (118) is arranged at one end, far away from the cooker heating element (117), of the outer wall of the cooking container (116); an inlet butterfly valve switch handle (113) is fixedly connected to the cooking inlet butterfly valve (111) through a bolt (115), and an outlet butterfly valve switch handle (119) is arranged on the cooking outlet butterfly valve (112).

6. The instant fresh refiner as defined in claim 5, wherein said cooking valve control unit (13) comprises a guide slider (134) disposed on the base pillar (124), an actuator mounting seat (135) extends from said guide slider (134), a valve actuator (131) having an actuator handle (136) is disposed on said actuator mounting seat (135), and a positioning base plate (132) and a positioning sleeve (133) respectively fixed on each base pillar (124) are disposed outside said guide slider (134).

7. The instant fresh grinding pulper according to claim 6, wherein said spiral quantitative feeding mechanism (2) comprises a feeding motor (26), a material container (28) and a feeding pipe (29) which are arranged on a base column (124), the bottom of said feeding pipe (29) is communicated with a feeding hopper (25), the top of said feeding pipe (29) is communicated with a discharging hopper (21) which is communicated with a feeding pipe (125), the output end of said feeding motor (26) is connected with a screw rod (23) which sequentially passes through said feeding hopper (25), said feeding pipe (29) and said discharging hopper (21), the top of said discharging hopper (21) is provided with a screw rod shaft seat (22) which is connected with said screw rod (23), the bottom of said material container (28) is communicated with said feeding hopper (25), the outer wall of the lower end of said material container (28) is provided with a material sensor (80), said material container (28) is fixedly connected to said base column (124) through a container fixing member (20), the feeding motor (26) is fixedly connected to the base upright post (124) through a motor fixing piece (27), and the feeding pipe (29) is fixedly connected to the base upright post (124) through a solenoid fixing piece (24).

8. The instant fresh mill refiner of claim 7, wherein said refining mechanism (3) comprises a refining vessel (33), a refiner (34) disposed at the bottom of the refining vessel (33), and a blanking cone (31) in communication with the refining vessel (33) through a refining inlet butterfly valve (32), said blanking cone (31) being disposed directly below a corresponding boiler section (11) at an outlet of a feed pipe (125), said refining vessel (33) being provided with a refining temperature sensor (37) and a circulating refining inlet (35), said refiner (34) comprising a refining outlet (36) in communication with a non-contact solenoid heating mechanism (4);

the non-contact solenoid heating mechanism (4) comprises a shell (41), a heating element (44) arranged in the shell (41) and a stainless steel heated solenoid (43) arranged around the heating element (44), wherein two ends of the stainless steel heated solenoid (43) are respectively communicated with the circular pulping inlet (35) and the pulping outlet (36), a heat insulating material (42) and a heating temperature sensor (45) arranged on the shell (41) are arranged between the stainless steel heated solenoid (43) and the shell (41).

9. The instant fresh grinding pulper according to claim 8, wherein the water flow power quantitative sugar adding mechanism (6) comprises a sugar adding container (62) and a shifting rod (69) arranged in the sugar adding container (62), a sugar container sensor (81) and an eccentric motor (63) with an output end connected with the center of the shifting rod (69) are arranged below a bottom plate of the sugar adding container (62), a butt joint port (60) connected with the sugar adding container conduit (61) is arranged on the bottom plate of the sugar adding container (62), a discharging port (67) is arranged at the bottom end of the sugar adding container conduit (61), a steam isolating pad (64) is fixedly connected with the discharging port (67) of the sugar adding container conduit (61) through a screw (65) and a gasket (66), and a hot pulp inlet (68) is arranged at the position, close to the discharging port (67), of the lower side wall of the sugar adding container conduit (61).

10. The instant fresh mill pulper according to claim 9, wherein said finished product buffering mechanism (5) comprises a buffering container (51), said buffering container (51) has a sugar adding opening (57) at the top, the tube wall of said sugar adding container conduit (61) having a feed opening (67) and a hot pulp inlet (68) passes through said sugar adding opening (57) and is disposed in said buffering container (51), said hot pulp inlet (68) passes through the sidewall of said buffering container (51) and is connected with a buffering electric valve (54), said buffering electric valve (54) is connected with a first draining electric valve (52) and a second draining electric valve (582) through a first tee (581), said second tee (582) is respectively communicated with said refining outlet (36) and one end of said stainless steel heated solenoid (43), the bottom of said buffering container (51) is connected with a filling joint (55) and a second draining electric valve (53) through a third tee (583), first drainage solenoid valve (52) and second drainage solenoid valve (53) respectively are connected with a waste water joint (56), be equipped with electric pump (59) between buffer container (51) and third tee bend (583).