CN111329083A

CN111329083A - Food processing is with wasing heating all-in-one

Info

Publication number: CN111329083A
Application number: CN202010282370.4A
Authority: CN
Inventors: 朱本虎
Original assignee: Wuhu Tingyou Electromechanical Technology Co ltd
Current assignee: Wuhu Tingyou Electromechanical Technology Co ltd
Priority date: 2020-04-12
Filing date: 2020-04-12
Publication date: 2020-06-26

Abstract

The invention relates to the field of food processing, in particular to a cleaning and heating integrated machine for food processing, which comprises a premixing mechanism, a heating mechanism and a heating mechanism, wherein the premixing mechanism is used for determining the proportion of each solid component in food to be processed, mixing and feeding each solid component, and adding a proper amount of water; the stirring mechanism is used for fully mixing and stirring each solid component and the water body, and the preheating mechanism is used for preheating solid-liquid mixed food mixed by fully stirring. The integrated dehydration and drying mechanism is used for dehydrating and cleaning the solid-liquid mixed food firstly and then drying the solid-liquid mixed food, and discharging the solid components in a solid state.

Description

Food processing is with wasing heating all-in-one

Technical Field

The invention relates to the field of food processing, in particular to a cleaning and heating integrated machine for food processing.

Background

Food processing refers to grain milling, feed processing, vegetable oil and sugar processing, slaughtering, meat processing, aquatic product processing and food processing activities of vegetables, fruits, nuts and the like which are directly carried out by taking agricultural, forestry, animal husbandry and fishery products as raw materials, and is a type of generalized agricultural product processing industry. In the existing food processing technology, especially when liquid cooked food is eaten, a large amount of water in the food and the food need to be heated together in the heating process, so that a large amount of energy is wasted, and meanwhile, the heated product needs enough cooling time, so that the food delivery efficiency is reduced.

Chinese patent CN201710186519.7 discloses a food processing device, which can independently complete two processes of food cleaning and heating by a single device; the water component does not participate in the heating process, so that the energy consumption is reduced, and the microwave and hot air flow are combined for processing to keep the surface of the food to be quickly dried, so that the food is not adhered; however, before continuous use of the apparatus, there may be a mixing of the previously remaining solid components with the existing solid components for the mixing section of the material, causing cross-contamination.

Disclosure of Invention

The invention aims to solve the technical problem of providing a cleaning and heating integrated machine for food processing, which solves the problem of easy cross contamination during feeding of the conventional food processing device.

In order to solve the technical problems, the invention provides the following technical scheme:

provided is a cleaning and heating all-in-one machine for food processing, comprising:

the premixing mechanism is used for determining the proportion of each solid component in food to be processed, mixing and feeding each solid component, and adding a proper amount of water;

the stirring mechanism is arranged at the bottom of the premixing mechanism, and the input end of the stirring mechanism is connected with the output end of the premixing mechanism and is used for fully mixing and stirring all solid components and water;

the preheating mechanism is arranged at the bottom of the stirring mechanism, and the input end of the preheating mechanism is connected with the output end of the stirring mechanism and is used for preheating the solid-liquid mixed food which is fully stirred and mixed;

the integrative mechanism of dehydration, the setting is in the bottom of preheating the mechanism, the output of integrative mechanism of dehydration is connected with the output of preheating the mechanism, is used for right the mixed food of solid-liquid dewaters earlier and washs, carries out the drying again, and the solid component is with the solid state ejection of compact.

As an optimal scheme of a cleaning and heating all-in-one machine for food processing, the premixing mechanism comprises a feeding bin, a material cover, an opening and closing driving cylinder and an inner lining plate, the premixing mechanism comprises a cylinder section and a funnel section which are connected with each other and integrally formed, the cylinder section is located at the top end of the funnel section, a premixing discharge hole is formed in the bottom end of the funnel section, a connecting lug is arranged on the side wall of the top end of the cylinder section, the middle position of the connecting lug is hinged to the material cover, the opening and closing driving cylinder is hinged to the side wall of the cylinder section, an output shaft of the opening and closing driving cylinder is hinged to the material cover, a premixing feeding pipe is arranged on the material cover, the premixing feeding pipe extends into the feeding bin, and the feeding bin is internally provided with the inner lining plate.

As an optimal scheme of the cleaning and heating all-in-one machine for food processing, a sealing strip is arranged at the edge of the bottom end of the material cover, and a sealing groove in sealing fit with the sealing strip is arranged at the edge of the top opening of the cylindrical section.

As an optimal scheme of the cleaning and heating integrated machine for food processing, a plurality of circles of mounting holes are circumferentially distributed on the outer wall of the cylinder section, the lining plate comprises a vertical mounting section and an inclined mounting section which are connected with each other and integrally formed, the vertical mounting section is located at the top end of the inclined mounting section, the vertical mounting section is attached to the inner wall of the cylinder section, the inclined mounting section is attached to the inner wall of the funnel section, a mounting rod matched with the mounting holes is arranged on the outer wall of the vertical mounting section, a mounting thread is arranged at one end, away from the vertical mounting section, of the mounting rod, a mounting nut is in threaded fit with the mounting thread, and the mounting nut is tightly pressed on the outer wall of the cylinder section through a mounting gasket.

As an optimal scheme of the cleaning and heating all-in-one machine for food processing, the stirring mechanism comprises a stirring box, a stirring motor, a stirring speed reducer and a stirring screw rod, wherein a stirring feeding hole and a stirring discharging hole are respectively formed in the top end and the bottom end of the stirring box, the stirring feeding hole and the stirring discharging hole are located in two sides of the stirring box, the stirring feeding hole is connected with a pre-mixing discharging hole, the stirring motor is arranged on the side portion of the stirring box and close to the stirring feeding hole, the stirring motor is connected with the stirring screw rod through the stirring speed reducer, the stirring speed reducer is arranged on the side wall of the stirring box, the stirring screw rod extends into the stirring box, and two ends of the stirring screw rod are rotatably connected with the.

As an optimal scheme of the cleaning and heating integrated machine for food processing, the preheating mechanism comprises a microwave reaction container, a vibration motor and a supporting spring, a heating feed inlet and a heating discharge outlet are respectively arranged at the top end and the bottom end of the microwave reaction container, the heating feed inlet is connected with a stirring discharge outlet, the vibration container is sleeved outside the microwave reaction container, a certain gap exists between the vibration container and the microwave reaction container, a plurality of rings of the supporting spring are distributed on the inner circumference of the gap between the microwave reaction container and the vibration container, one end of the supporting spring is connected with the microwave reaction container, the other end of the supporting spring is connected with the vibration container, and the vibration motor is arranged on the outer wall of the vibration container.

As an optimal scheme of the cleaning and heating integrated machine for food processing, material guide plates are arranged inside the microwave reaction container and are arranged on two opposite side walls of the microwave reaction container, the material guide plates on the two opposite side walls of the microwave reaction container are distributed in a staggered mode, a certain distance is reserved between the material guide plates on the two opposite side walls of the microwave reaction container, and one end part, far away from the microwave reaction container, of each material guide plate is arranged in a downward inclined mode.

As a preferred scheme of the cleaning and heating integrated machine for food processing, the dehydration and drying integrated mechanism comprises a stator container, a rotor container, a dehydration sealing cover, a lifting cylinder and a gear box group, wherein the top end and the bottom end of the stator container are respectively provided with a stator feeding hole and a stator discharging hole, the stator feeding hole is connected with the heating discharging hole, the stator feeding hole is cylindrical, the stator feeding hole and the stator container are coaxially arranged, the stator discharging hole is eccentrically arranged at the bottom end of the stator container, the rotor container is coaxially arranged inside the stator container, the top end of the rotor container is provided with a rotor feeding hole, the rotor feeding hole is positioned at the bottom of the stator feeding hole, a plurality of circles of dehydration holes are circumferentially distributed on the side wall of the rotor container, a certain gap is arranged between the stator container and the rotor container, the dehydration sealing cover is sleeved outside the rotor, the output and the dehydration sealed cowling transmission of lift cylinder are connected to drive dehydration sealed cowling and slide on the axial direction of rotor container, be equipped with on the dehydration sealed cowling with the through-hole that dehydration mouth quantity equals, the coaxial pivot that is equipped with in inside of rotor container, pivot and rotor container fixed connection, the stator container is outside in the pivot extension, and the bottom of stator container is equipped with the gear box group, the gear box cover is established in the pivot outside, and drives the pivot and rotate.

As an optimal scheme of the cleaning and heating integrated machine for food processing, a spiral guide plate which is spirally arranged is arranged outside a rotating shaft, the edge of the spiral guide plate is connected with the inner wall of a rotor container, a hollow section which is arranged in a hollow mode is arranged at the bottom end of the rotating shaft, a plurality of air outlet holes are formed in the hollow section, a hot air pipe is communicated with the bottom end of the rotating shaft, the hot air pipe is communicated with the hollow section, and an electromagnetic valve is arranged on the hot air pipe.

As an optimal scheme of the cleaning and heating integrated machine for food processing, a plurality of connecting columns are distributed on the circumference of the top end of the dehydration sealing cover, the connecting columns penetrate through the stator container, a lifting ring is arranged on the part exposed out of the stator container, a lifting handle is arranged on the lifting ring, and an output shaft of a lifting cylinder is in transmission connection with the lifting ring.

Compared with the prior art, the invention has the beneficial effects that:

the solid components and the water body are premixed to obtain the proportion of the solid components, after the mass ratio of the solid components is determined, the solid components are put into a feeding bin from a premixing feeding pipe, a certain amount of comb bodies are injected into the feeding bin, and the solid components and the water body can flow out from a premixing discharging hole. The inner lining plate is attached to the inner wall of the feeding bin, and only the inner lining plate needs to be replaced under the condition of multiple use, so that cross contamination of food is avoided. The stirring feed inlet receives food and water that flow down from the discharge gate that mixes in advance, later starts agitator motor, agitator motor and stirring speed reducer constitute electronic speed reducer structure, and when agitator motor during operation, can drive the stirring screw and rotate in the agitator tank, when the stirring screw rotates, can carry out intensive mixing to solid component and water, carries out solid-liquid mixture to carry solid-liquid mixture to stirring discharge gate department, solid-liquid mixture is from stirring discharge gate department output. And then preheating the solid-liquid mixture, heating the solid components in the solid-liquid mixture in one step, receiving the solid-liquid mixture flowing from the stirring discharge port by the heating feed port, and preheating the solid-liquid mixture in a microwave heating mode to fully heat and ripen the solid components. The solid-liquid mixture flowing down from the heating discharge port can sequentially pass through the stator feed port and the rotor feed port to enter the rotor container, when solid components in the solid-liquid mixture need to be cleaned, the gear box group drives the rotating shaft to perform low-speed intermittent forward and backward rotation, a certain amount of water can be injected into the stator container again, and the rotor container can clean the solid components after the low-speed intermittent forward and backward rotation lasting for a period of time. When the solid-liquid mixture is needed to be dehydrated, the dehydration sealing cover is lowered, so that the through holes in the dehydration sealing cover are opposite to the dehydration ports in position, the dehydration ports are exposed, the gear box group drives the rotating shaft to rotate at a high speed, and under the centrifugal action, water in the solid-liquid mixture is thrown out to perform dehydration work. When the solid components need to be heated and dried, the gear box group drives the rotating shaft to rotate at a low speed, hot air is introduced into the hot air pipe, enters the hollow section along the hot air pipe and is discharged from the air outlet, the spirally arranged spiral guide plate drives food and the hot air to spirally rise under the rotation of the rotating shaft, the hot air continuously and upwards moves as spiral hot air along a spiral air channel formed by the spiral guide plate and the inner wall of the rotor container, the hot air continuously and uniformly heats residual moisture in the solid components on the spiral guide plate, the solid components are heated again to be cooked, finally the solid components are discharged from the rotor feeding port of the rotor container, enter a gap between the stator container and the rotor container and are discharged from the stator discharging port, and solid cooked food which is cleaned and dried is obtained.

This wash and heat individual equipment of all-in-one can independently accomplish food washing, heating and drying process, when the ratio feeding, the inner wall in feeding storehouse has set up the interior welt that can change, under the condition of having avoided repetitious usage, food is by cross contamination, wash the washing to food after, throw away the water, dewater solid-liquid mixture, obtain solid component, make the water not participate in the heating process, energy resource consumption has been reduced, adopt microwave and hot gas flow combination processing to keep food surface quick drying, make food not adhere.

Drawings

FIGS. 1 and 2 are schematic views of the present invention from two different perspectives;

FIG. 3 is a side view at the premixing mechanism in the present invention;

FIG. 4 is a schematic cross-sectional view taken along line A-A of FIG. 3;

FIG. 5 is an enlarged schematic view at A in FIG. 4;

FIG. 6 is a schematic view of the structure of the feed bin of the present invention;

FIG. 7 is a schematic view of the structure of the inner lining plate according to the present invention;

FIG. 8 is a schematic structural view of a stirring mechanism according to the present invention;

FIG. 9 is a schematic cross-sectional view taken along line B-B of FIG. 8;

FIG. 10 is a schematic view of the structure of the preheating unit and the dehydration/drying unit of the present invention;

FIG. 11 is a schematic cross-sectional view taken at C-C of FIG. 10;

FIG. 12 is a schematic view of the structure of the rotor vessel and dewatering seal housing of the present invention;

FIG. 13 is a front view of the rotor vessel of the present invention;

FIG. 14 is a schematic cross-sectional view taken at D-D of FIG. 13;

fig. 15 is a perspective cross-sectional view taken at D-D in fig. 13.

The reference numbers in the figures are:

1-a premixing mechanism; 1 a-a feeding bin; 1a 1-cylindrical segment; 1a 2-funnel section; 1a 3-engaging lug; 1a 4-mounting holes; 1a 5-seal groove; 1 b-a material cover; 1b 1-premix feed tube; 1b 2-sealing strip; 1 c-opening and closing drive cylinder; 1 d-a pre-mixing discharge port; 1 e-an inner lining plate; 1e 1-vertical mounting section; 1e2 — oblique mounting section; 1e 3-mounting bar; 1e 4-mounting nut; 1e 5-mounting pad;

2-a stirring mechanism; 2 a-a stirring box; 2 b-a stirring motor; 2 c-stirring speed reducer; 2 d-stirring screw; 2 e-stirring feed inlet; 2 f-stirring a discharge hole;

3-a preheating mechanism; 3 a-a microwave reaction vessel; 3a 1-heating the feed inlet; 3a 2-heating the discharge hole; 3a 3-guide plate; 3 b-vibrating the container; 3 c-a vibration motor; 3 d-support spring;

4-dehydration and drying integrated mechanism; 4 a-a stator container; 4a 1-stator feed inlet; 4a 2-stator discharge; 4 b-a rotor vessel; 4b 1-rotor feed inlet; 4b 2-dehydration gate; 4 c-a rotating shaft; 4c 1-spiral deflector; 4c 2-hollow section; 4c 3-air outlet; 4 d-a hot air pipe; 4d 1-solenoid valve; 4 e-a dehydration seal cap; 4e 1-vias; 4e 2-connecting column; 4e 3-lifting ring; 4e 4-lifting handle; 4 f-a lifting cylinder; 4 g-gearbox group.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1 and 2, the cleaning and heating integrated machine includes:

the pre-mixing mechanism 1 is used for determining the proportion of each solid component in food to be processed, mixing and feeding each solid component, and adding a proper amount of water, wherein the water is mainly used for washing the solid components with water and is convenient for the subsequent pre-heating step;

the stirring mechanism 2 is arranged at the bottom of the premixing mechanism 1, and the input end of the stirring mechanism 2 is connected with the output end of the premixing mechanism 1 and is used for fully mixing and stirring all solid components and water;

the preheating mechanism 3 is arranged at the bottom of the stirring mechanism 2, and the input end of the preheating mechanism 3 is connected with the output end of the stirring mechanism 2 and is used for preheating the solid-liquid mixed food which is fully stirred and mixed;

integrative mechanism of dehydration 4 sets up in the bottom of preheating mechanism 3, and the output of integrative mechanism of dehydration 4 is connected with the output of preheating mechanism 3 for carry out the dehydration earlier and wash solid-liquid mixture food, the water composition does not participate in the drying process, has reduced the energy loss, carries out the drying to solid component again, treats that solid component is dry to accomplish the back, and solid component is with the solid state ejection of compact.

Referring to fig. 3 and 4, the premixing mechanism 1 includes a feeding bin 1a, a material cover 1b, an opening/closing driving cylinder 1c and an inner lining plate 1e, the premixing mechanism 1 includes a cylindrical section 1a1 and a funnel section 1a2 which are connected with each other and integrally formed, the cylindrical section 1a1 is located at the top end of the funnel section 1a2, a premixing discharge port 1d is provided at the bottom end of the funnel section 1a2, a connection lug 1a3 is provided on the side wall of the top end of the cylindrical section 1a1, the material cover 1b is hinged at the middle position of the connection lug 1a3, the opening/closing driving cylinder 1c is hinged on the side wall of the cylindrical section 1a1, the output shaft of the opening/closing driving cylinder 1c is hinged with the material cover 1b, the premixing feeding tube 1b1 extends into the feeding bin 1a, and the feeding bin 1a is provided with the inner lining plates 1e which are spliced together and. After the mixture ratio of the solid components is determined, the solid components are put into the feeding bin 1a from the premixing feeding pipe 1b1, and the feeding bin 1a is designed into a funnel shape integrally and comprises a cylindrical section 1a1 and a funnel section 1a2, so that the materials are conveyed downwards continuously and enter the stirring mechanism 2. The output end of the pre-mixing feeding pipe 1b1 of the material cover 1b extends into the feeding bin 1a, so that food is stuck on the material cover 1b as little as possible, the hinge point of the middle position of the material cover 1b and the connecting lug 1a3 is a first hinge point, the hinge point of the material cover 1b and the opening and closing driving cylinder 1c is a second hinge point, the opening and closing driving cylinder 1c output shaft stretches and contracts, the material cover 1b is driven to rotate around the first hinge point, the switch of the material cover 1b is closed, and the feeding bin 1a is convenient to clean and maintain at the later stage. Considering that the solid component and the liquid component may stick to the inner wall of the feeding bin 1a to cause the feeding bin 1a to be polluted and the subsequent food with other ingredients is inconvenient to feed, the inner lining plate 1e is attached to the inner wall of the feeding bin 1a, and only the inner lining plate 1e needs to be replaced when the feeding bin is used for multiple times.

Referring to fig. 5 and 6, a sealing strip 1b2 is disposed at the edge of the bottom end of the material cover 1b, a sealing groove 1a5 sealingly engaged with the sealing strip 1b2 is disposed at the edge of the top opening of the cylindrical section 1a1, and the sealing groove 1a5 sealingly engages with the sealing strip 1b2 to prevent food in the feeding bin 1a from splashing out.

Referring to fig. 7, a plurality of circles of mounting holes 1a4 are circumferentially distributed on the outer wall of the cylindrical section 1a1, the inner lining plate 1e includes a vertical mounting section 1e1 and an inclined mounting section 1e2 which are connected with each other and integrally formed, the vertical mounting section 1e1 is located at the top end of the inclined mounting section 1e2, the vertical mounting section 1e1 is attached to the inner wall of the cylindrical section 1a1, the inclined mounting section 1e2 is attached to the inner wall of the funnel section 1a2, a mounting rod 1e3 matched with the mounting hole 1a4 is arranged on the outer wall of the vertical mounting section 1e1, a mounting thread is arranged at one end of the mounting rod 1e3 far from the vertical mounting section 1e1, a mounting nut 1e4 is matched with the mounting thread, and the mounting nut 1e4 is pressed on the outer wall of the cylindrical section 1a1 through a mounting gasket 1e 5. When the lining plate 1e is attached, the vertical attachment section 1e1 is attached to the inner wall of the cylindrical section 1a1, the inclined attachment section 1e2 is attached to the inner wall of the funnel section 1a2, the attachment rod 1e3 is inserted into the corresponding attachment hole 1a4, and the position of the lining plate 1e is fixed by the attachment nut 1e 4. The inner lining plate 1e can be installed or removed according to the use condition.

Referring to fig. 8 and 9, the stirring mechanism 2 includes a stirring tank 2a, a stirring motor 2b, a stirring speed reducer 2c and a stirring screw 2d, a stirring feed port 2e and a stirring discharge port 2f are respectively disposed at the top end and the bottom end of the stirring tank 2a, the stirring feed port 2e and the stirring discharge port 2f are disposed at two sides of the stirring tank 2a, the stirring feed port 2e is connected to a pre-mixing discharge port 1d, the stirring motor 2b is disposed at a side portion of the stirring tank 2a, the stirring motor 2b is disposed near the stirring feed port 2e, the stirring motor 2b is connected to the stirring screw 2d through the stirring speed reducer 2c, the stirring speed reducer 2c is disposed on a side wall of the stirring tank 2a, the stirring screw 2d extends into the stirring tank 2a, and two ends of the stirring screw 2d are rotatably connected to an inner wall. The stirring feed inlet 2e receives food and water flowing down from the premixing discharge port 1d, then the stirring motor 2b is started, the stirring motor 2b and the stirring speed reducer 2c form an electric speed reducer structure, when the stirring motor 2b works, the stirring screw 2d can be driven to rotate in the stirring box 2a, when the stirring screw 2d rotates, solid components and water can be fully stirred and mixed, the solid-liquid mixture is conveyed to the stirring discharge port 2f, and the solid-liquid mixture is output from the stirring discharge port 2 f.

Referring to fig. 10 and 11, the preheating mechanism 3 includes a microwave reaction container 3a, a vibration container 3b, a vibration motor 3c, and support springs 3d, the top end and the bottom end of the microwave reaction container 3a are respectively provided with a heating feed port 3a1 and a heating discharge port 3a2, the heating feed port 3a1 is connected to the stirring discharge port 2f, the vibration container 3b is sleeved outside the microwave reaction container 3a, a gap is formed between the vibration container 3b and the microwave reaction container 3a, a plurality of rings of support springs 3d are distributed on the inner circumference of the gap between the microwave reaction container 3a and the vibration container 3b, one end of each support spring 3d is connected to the microwave reaction container 3a, the other end of each support spring 3d is connected to the vibration container 3b, and the vibration motor 3c is disposed on the outer wall of the vibration container 3 b. In this embodiment, the microwave reaction vessel 3a is a microwave heating reaction vessel, the heating inlet 3a1 receives the solid-liquid mixture flowing from the stirring outlet 2f, and preheats the solid-liquid mixture by microwave heating, so that each solid component is sufficiently heated and well-cooked, the vibration motor 3c drives the vibration vessel 3b to vibrate when operating, and the vibration can be conducted to the microwave reaction vessel 3a by the support spring 3d arranged between the microwave reaction vessel 3a and the vibration vessel 3b when the vibration vessel 3b vibrates, so that the microwave reaction vessel 3a also vibrates, and the microwave reaction vessel can be used for controlling the blanking of the solid-liquid mixture.

Referring to fig. 11, a material guiding plate 3a3 is disposed inside the microwave reaction vessel 3a, the material guiding plates 3a3 are disposed on two opposite sidewalls of the microwave reaction vessel 3a, the material guiding plates 3a3 on the two opposite sidewalls of the microwave reaction vessel 3a are distributed in a staggered manner, a certain distance is provided between the material guiding plates 3a3 on the two opposite sidewalls of the microwave reaction vessel 3a, and an end portion of the material guiding plate 3a3 away from the microwave reaction vessel 3a is disposed in a downward inclined manner. The material guide plate 3a3 forms an S-shaped channel for the solid-liquid mixture to pass through, i.e. the time for the solid-liquid mixture to be heated in the microwave reaction container 3a can be prolonged, the gap of the channel can be adjusted, and the solid-liquid mixture can be orderly and uniformly discharged to prevent the blockage phenomenon in the process.

Referring to fig. 11, 12, 13, 14 and 15, the integrated dehydration and drying mechanism 4 includes a stator container 4a, a rotor container 4b, a dehydration seal cover 4e, a lifting cylinder 4f and a gear box group 4g, the top end and the bottom end of the stator container 4a are respectively provided with a stator feed port 4a1 and a stator discharge port 4a2, the stator feed port 4a1 is connected with the heating discharge port 3a2, the stator feed port 4a1 is cylindrical, the stator feed port 4a1 is coaxially arranged with the stator container 4a, the stator discharge port 4a2 is eccentrically arranged at the bottom end of the stator container 4a, the rotor container 4b is coaxially arranged inside the stator container 4a, the top end of the rotor container 4b is provided with a rotor feed port 4b1, the rotor feed port 4b1 is located at the bottom of the stator feed port 4a1, a plurality of circles of dehydration ports 4b are circumferentially distributed on the side wall of the rotor container 4b2, a certain gap is arranged between the stator container 4a, the outside cover of rotor container 4b is equipped with dehydration sealed cowling 4e, the lateral part of stator container 4a is equipped with 4 f), the output and the dehydration sealed cowling 4e transmission of lift cylinder 4f are connected, and drive dehydration sealed cowling 4e slide on the axial direction of rotor container 4b, be equipped with the through-hole 4e1 that equals with dehydration mouthful 4b2 quantity on the dehydration sealed cowling 4e, the inside coaxial pivot 4c that is equipped with of rotor container 4b, pivot 4c and rotor container 4b fixed connection, the pivot 4c extends the stator container 4a outside, the bottom of stator container 4a is equipped with gear box group 4g, gear box group 4g cover is established in the pivot 4c outside, and drive pivot 4c rotates. The outside of pivot 4c is equipped with spiral guide plate 4c1 of spiral setting, the edge of spiral guide plate 4c1 is connected with the inner wall of rotor container 4b, the bottom of pivot 4c is equipped with hollow section 4c2 of cavity setting, hollow section 4c2 is equipped with a plurality of exhaust vents 4c3, the bottom intercommunication of pivot 4c has hot-blast main 4d, hot-blast main 4d and hollow section 4c2 intercommunication, be equipped with solenoid valve 4d1 on the hot-blast main 4 d. A plurality of connecting columns 4e2 are distributed on the circumference of the top end of the dewatering sealing cover 4e, the connecting columns 4e2 penetrate through the stator container 4a, a lifting ring 4e3 is arranged on the part exposed out of the stator container 4a, a lifting handle 4e4 is arranged on the lifting ring 4e3, and the output shaft of the lifting cylinder 4f is in transmission connection with the lifting ring 4e 3.

The stator container 4a is fixedly arranged, and the rotor container 4b can rotate in the stator container 4a relative to the stator container 4a, when the gear box group 4g works, the rotating shaft 4c is driven to rotate, the rotating shaft 4c is fixedly connected with the rotor container 4b, and therefore the rotor container 4b can rotate. When solid components in the solid-liquid mixture need to be cleaned, the gear box group 4g drives the rotating shaft 4c to perform low-speed intermittent forward and reverse rotation, a certain amount of water can be injected into the stator container 4a again, and the rotor container 4b can clean the solid components after the low-speed intermittent forward and reverse rotation lasts for a period of time. After the cleaning is finished, the solid-liquid mixture needs to be dehydrated to obtain the required solid cooked food part, a plurality of circles of dewatering ports 4b2 are distributed on the circumference of the side wall of the rotor container 4b, when the solid-liquid mixture needs to be dewatered, the dewatering sealing cover 4e is lowered by the lifting cylinder 4f, so that the through hole 4e1 on the dewatering sealing cover 4e corresponds to the position of the dewatering port 4b2, the dewatering port 4b2 is exposed, the gear box group 4g drives the rotating shaft 4c to rotate at high speed, the rotor container 4b is driven to rotate at high speed, under the centrifugal action, the water in the solid-liquid mixture is thrown out for dehydration, the water is thrown out from the dehydration port 4b2 and enters the gap between the stator container 4a and the rotor container 4b, can be discharged from a stator discharge port 4a2 for solid-liquid separation to separate water and solid components. When the solid component needs to be heated and dried, the gear box group 4g drives the rotating shaft 4c to rotate at a low speed, hot air is introduced into the hot air pipe 4d, the hot air enters the hollow section 4c2 along the hot air pipe 4d, and is discharged from the air outlet 4c3, the spirally arranged spiral guide plate 4c1 drives food and hot air to spirally rise under the rotation of the rotating shaft 4c, the hot air continuously and upwards makes spiral hot air flow motion along a spiral air channel formed by the spiral guide plate 4c1 and the inner wall of the rotor container 4b, the hot air continuously and uniformly heats residual moisture in solid components on the spiral guide plate 4c1, and finally discharging the solid components from a rotor feeding port 4b1 of the rotor container 4b, entering a gap between the stator container 4a and the rotor container 4b, and discharging from a stator discharging port 4a2 to obtain the solid cooked food after cleaning and drying. During the heating and washing process, the lifting cylinder 4f lifts the dewatering seal cover 4e so that the dewatering ports 4b2 are blocked by the dewatering seal cover 4e, blocking the dewatering ports 4b 2.

The working principle of the invention is as follows: premixing solid components and water bodies to obtain the proportion of the solid components, putting the solid components into the feeding bin 1a from the premixing feeding pipe 1b1 after determining the mass ratio of the solid components, and injecting a certain amount of comb bodies into the feeding bin 1a, wherein the solid components and the water bodies can flow out from the premixing discharging port 1 d. The inner lining plate 1e is attached to the inner wall of the feeding bin 1a, and under the condition of repeated use, only the inner lining plate 1e needs to be replaced, so that cross contamination of food is avoided. The stirring feed inlet 2e receives food and water flowing down from the premixing discharge port 1d, then the stirring motor 2b is started, the stirring motor 2b and the stirring speed reducer 2c form an electric speed reducer structure, when the stirring motor 2b works, the stirring screw 2d can be driven to rotate in the stirring box 2a, when the stirring screw 2d rotates, solid components and water can be fully stirred and mixed, solid-liquid mixing is carried out, the solid-liquid mixture is conveyed to the stirring discharge port 2f, and the solid-liquid mixture is output from the stirring discharge port 2 f. Then, the solid-liquid mixture is preheated, the solid components in the solid-liquid mixture are heated in a first step, the heating inlet 3a1 receives the solid-liquid mixture flowing down from the stirring outlet 2f, and the solid-liquid mixture is preheated by microwave heating, so that each solid component is sufficiently heated and well cooked. The solid-liquid mixture flowing down from the heating discharge port 3a2 can sequentially pass through the stator feed port 4a1 and the rotor feed port 4b1 to enter the rotor container 4b, when the solid components in the solid-liquid mixture need to be cleaned, the gear box group 4g drives the rotating shaft 4c to perform low-speed intermittent forward and reverse rotation, a certain amount of water can be injected into the stator container 4a again, and the rotor container 4b can clean the solid components after continuous low-speed intermittent forward and reverse rotation for a period of time. When the solid-liquid mixture needs to be dehydrated, the dehydration sealing cover 4e is lowered, so that the through hole 4e1 on the dehydration sealing cover 4e and the dehydration port 4b2 are opposite to each other in position, the dehydration port 4b2 is exposed, the gear box group 4g drives the rotating shaft 4c to rotate at a high speed, and water in the solid-liquid mixture is thrown out under the centrifugal action to perform dehydration work. When the solid components need to be heated and dried, the gear box group 4g drives the rotating shaft 4c to rotate at a low speed, hot air is introduced into the hot air pipe 4d, the hot air enters the hollow section 4c2 along the hot air pipe 4d and is discharged from the air outlet 4c3, the spirally arranged spiral guide plate 4c1 drives food and the hot air to spirally rise under the rotation of the rotating shaft 4c, the hot air continuously and upwards makes spiral hot air flow motion along a spiral air channel formed by the spiral guide plate 4c1 and the inner wall of the rotor container 4b, the hot air continuously and uniformly heats residual moisture in the solid components on the spiral guide plate 4c1, heats the solid components again to be thoroughly cooked, finally the solid components are discharged from the rotor feeding port 4b1 of the rotor container 4b, enter a gap between the stator container 4a and the rotor container 4b and are discharged from the stator discharging port 4a2, obtaining solid cooked food after cleaning and drying.

This wash and heat individual equipment of all-in-one can independently accomplish food washing, heating and drying process, when the ratio feeding, the inner wall in feeding storehouse 1a has set up interior welt 1e that can change, under the condition of having avoided repetitious usage, food is by cross contamination, wash after wasing food, throw away the water, dewater solid-liquid mixture, obtain solid component, make the water not participate in the heating process, energy resource consumption has been reduced, adopt microwave and hot gas flow combination processing to keep food surface rapid draing, make food not adhere.

Claims

1. The utility model provides a food processing is with wasing heating all-in-one which characterized in that includes:

the premixing mechanism (1) is used for determining the proportion of each solid component in food to be processed, mixing and feeding each solid component, and adding a proper amount of water;

the stirring mechanism (2) is arranged at the bottom of the premixing mechanism (1), and the input end of the stirring mechanism (2) is connected with the output end of the premixing mechanism (1) and is used for fully mixing and stirring all solid components and water;

the preheating mechanism (3) is arranged at the bottom of the stirring mechanism (2), and the input end of the preheating mechanism (3) is connected with the output end of the stirring mechanism (2) and is used for preheating solid-liquid mixed food which is fully stirred and mixed;

integrative mechanism of dehydration (4), the setting is in the bottom of preheating mechanism (3), the output of integrative mechanism of dehydration (4) is connected with the output of preheating mechanism (3), is used for right the solid-liquid mixed food dewaters earlier and washs, dries again, and the solid component is with the solid state ejection of compact.

2. The integrated cleaning and heating machine for food processing according to claim 1, wherein the premixing mechanism (1) comprises a feeding bin (1 a), a material cover (1 b), an opening and closing driving cylinder (1 c) and an inner lining plate (1 e), the premixing mechanism (1) comprises a cylinder section (1 a 1) and a funnel section (1 a 2) which are connected with each other and integrally formed, the cylinder section (1 a 1) is located at the top end of the funnel section (1 a 2), a premixing discharge port (1 d) is arranged at the bottom end of the funnel section (1 a 2), a connecting lug (1 a 3) is arranged on the side wall of the top end of the cylinder section (1 a 1), the material cover (1 b) is hinged at the middle position of the connecting lug (1 a 3), the opening and closing driving cylinder (1 c) is hinged on the side wall of the cylinder section (1 a 1), and the output shaft of the opening and closing driving cylinder (1 c) is hinged with the material cover (1 b), the material cover (1 b) is provided with a premix feeding pipe (1 b 1), the premix feeding pipe (1 b 1) extends into the interior of the feeding bin (1 a), and the interior of the feeding bin (1 a) is provided with a plurality of lining plates (1 e) which are spliced together and cover the inner wall of the feeding bin (1 a).

3. A washing and heating integrated machine for food processing according to claim 2, characterized in that a sealing strip (1 b 2) is arranged at the edge of the bottom end of the material cover (1 b), and a sealing groove (1 a 5) which is in sealing fit with the sealing strip (1 b 2) is arranged at the edge of the top opening of the cylinder section (1 a 1).

4. A washing and heating integrated machine for food processing according to claim 3, characterized in that a plurality of circles of mounting holes (1 a 4) are circumferentially distributed on the outer wall of the cylindrical section (1 a 1), the inner lining plate (1 e) comprises a vertical mounting section (1 e 1) and an inclined mounting section (1 e 2) which are connected with each other and integrally formed, the vertical mounting section (1 e 1) is located at the top end of the inclined mounting section (1 e 2), the vertical mounting section (1 e 1) is attached to the inner wall of the cylindrical section (1 a 1), the inclined mounting section (1 e 2) is attached to the inner wall of the funnel section (1 a 2), a mounting rod (1 e 3) matched with the mounting hole (1 a 4) is arranged on the outer wall of the vertical mounting section (1 e 1), a mounting thread is arranged at the end of the mounting rod (1 e 3) far away from the vertical mounting section (1 e 1), and a mounting nut (1 e 4) is matched with the mounting thread, the mounting nut (1 e 4) is pressed against the outer wall of the cylinder segment (1 a 1) by means of a mounting washer (1 e 5).

5. The integrated cleaning and heating machine for food processing according to claim 4, wherein the stirring mechanism (2) comprises a stirring tank (2 a), a stirring motor (2 b), a stirring speed reducer (2 c) and a stirring screw (2 d), the top end and the bottom end of the stirring tank (2 a) are respectively provided with a stirring feed inlet (2 e) and a stirring discharge outlet (2 f), the stirring feed inlet (2 e) and the stirring discharge outlet (2 f) are positioned at two sides of the stirring tank (2 a), the stirring feed inlet (2 e) is connected with a premixing discharge outlet (1 d), the stirring motor (2 b) is arranged at the side part of the stirring tank (2 a), the stirring motor (2 b) is arranged close to the stirring feed inlet (2 e), the stirring motor (2 b) is connected with the stirring screw (2 d) through the stirring speed reducer (2 c), stirring speed reducer (2 c) sets up on the lateral wall of agitator tank (2 a), and stirring screw rod (2 d) extend and enter into agitator tank (2 a) inside, and the both ends of stirring screw rod (2 d) are connected with the inner wall rotation of agitator tank (2 a).

6. The integrated machine for cleaning and heating food processing according to claim 5, wherein the preheating mechanism (3) comprises a microwave reaction container (3 a), a vibration container (3 b), a vibration motor (3 c) and a support spring (3 d), the top end and the bottom end of the microwave reaction container (3 a) are respectively provided with a heating feed port (3 a 1) and a heating discharge port (3 a 2), the heating feed port (3 a 1) is connected with a stirring discharge port (2 f), the vibration container (3 b) is sleeved outside the microwave reaction container (3 a), a certain gap exists between the vibration container (3 b) and the microwave reaction container (3 a), a plurality of circles of the support spring (3 d) are distributed in the gap between the microwave reaction container (3 a) and the vibration container (3 b), one end of the support spring (3 d) is connected with the microwave reaction container (3 a), the other end of the supporting spring (3 d) is connected with a vibration container (3 b), and the outer wall of the vibration container (3 b) is provided with a vibration motor (3 c).

7. The integrated machine for cleaning and heating food processing according to claim 6, wherein the microwave reaction container (3 a) is internally provided with material guiding plates (3 a 3), the material guiding plates (3 a 3) are arranged on two opposite side walls of the microwave reaction container (3 a), the material guiding plates (3 a 3) on the two opposite side walls of the microwave reaction container (3 a) are distributed in a staggered manner, a certain distance is provided between the material guiding plates (3 a 3) on the two opposite side walls of the microwave reaction container (3 a), and one end part of the material guiding plate (3 a 3) far away from the microwave reaction container (3 a) is arranged in a downward inclined manner.

8. The integrated food washing and heating machine according to claim 7, wherein the integrated dehydrating and drying mechanism (4) comprises a stator container (4 a), a rotor container (4 b), a dehydrating sealing cover (4 e), a lifting cylinder (4 f) and a gear box set (4 g), the top end and the bottom end of the stator container (4 a) are respectively provided with a stator feeding port (4 a 1) and a stator discharging port (4 a 2), the stator feeding port (4 a 1) is connected with the heating discharging port (3 a 2), the stator feeding port (4 a 1) is cylindrical, the stator feeding port (4 a 1) is coaxial with the stator container (4 a), the stator discharging port (4 a 2) is eccentrically arranged at the bottom end of the stator container (4 a), the rotor container (4 b) is coaxially arranged inside the stator container (4 a), and the rotor feeding port (4 b 1) is arranged at the top end of the rotor container (4 b), the rotor feed inlet (4 b 1) is positioned at the bottom of the stator feed inlet (4 a 1), a plurality of circles of dewatering ports (4 b 2) are circumferentially distributed on the side wall of the rotor container (4 b), a certain gap is formed between the stator container (4 a) and the rotor container (4 b), a dewatering sealing cover (4 e) is sleeved outside the rotor container (4 b), the side part of the stator container (4 a) is provided with the dewatering ports (4 f), the output end of the lifting cylinder (4 f) is in transmission connection with the dewatering sealing cover (4 e), the dewatering sealing cover (4 e) is driven to slide along the axial direction of the rotor container (4 b) and is provided with through holes (4 e 1) with the same number as the dewatering ports (4 b 2), a rotating shaft (4 c) is coaxially arranged inside the rotor container (4 b), and the rotating shaft (4 c) is fixedly connected with the rotor container (4 b), the rotating shaft (4 c) extends out of the stator container (4 a), the bottom end of the stator container (4 a) is provided with the gear box group (4 g), the gear box group (4 g) is sleeved outside the rotating shaft (4 c), and the rotating shaft (4 c) is driven to rotate.

9. The integrated machine for cleaning and heating food processing according to claim 8, wherein a spirally arranged spiral guide plate (4 c 1) is arranged outside the rotating shaft (4 c), the edge of the spiral guide plate (4 c 1) is connected with the inner wall of the rotor container (4 b), a hollow section (4 c 2) is arranged at the bottom end of the rotating shaft (4 c), the hollow section (4 c 2) is provided with a plurality of air outlet holes (4 c 3), the bottom end of the rotating shaft (4 c) is communicated with a hot air pipe (4 d), the hot air pipe (4 d) is communicated with the hollow section (4 c 2), and an electromagnetic valve (4 d 1) is arranged on the hot air pipe (4 d).

10. The integrated machine for cleaning and heating food processing as claimed in claim 9, wherein a plurality of connecting columns (4 e 2) are distributed on the top circumference of the dehydration sealing cover (4 e), the connecting columns (4 e 2) penetrate through the stator container (4 a), a lifting ring (4 e 3) is arranged on the part exposed out of the stator container (4 a), a lifting handle (4 e 4) is arranged on the lifting ring (4 e 3), and the output shaft of the lifting cylinder (4 f) is in transmission connection with the lifting ring (4 e 3).