CN209768853U - Intermittent high-pressure cooking device for seed nut food - Google Patents

Abstract

The utility model discloses a clearance type high-pressure cooking device for seed nut food, which comprises a frame, a rotary power mechanism A, a top cover lifting cylinder, a suspension arm, a rotary power mechanism B, a top cover rotating shaft, a top cover, a cooking pot body and a mesh material barrel, wherein the rotary power mechanism A is arranged at the top of the frame through a bracket, a driving gear A is arranged on the rotary power mechanism A, and a driven gear A is arranged on the top cover lifting cylinder; the lifter top of top cap lift cylinder is fixed with the davit, installs rotary power mechanism B on the davit, installs driving gear A on the rotary power mechanism B, rotates on the davit and installs the top cap rotation axis, and driven gear B is installed on top of the top cap rotation axis, and the cooperation has placed the boiling pan pot body on the electricity heating seat, and the boiling pan pot internal portion is equipped with netted material bucket. The utility model discloses carry out high-pressure cooking to seed nut leisure articles and handle, solve seed benevolence and go into flavor difficult, the shell is collided with the shell difficult, the energy consumption is high, toast long time, inefficiency scheduling problem.

Description

Intermittent high-pressure cooking device for seed nut food

Technical Field

The utility model relates to a seed nut food processing technology field especially relates to an interstitial type high-pressure cooking device for seed nut food.

background

With the development of social economy and the increasing improvement of the living standard of people, the food industry is unprecedentedly developed, the total production value of the food industry breaks through billions, the food industry becomes the first major industry of national economy, particularly the pursuit of people on the aspect of material culture life is increased in recent years, the development of the leisure food industry is more rapid, the food industry develops at an acceleration rate of more than 10% every year since 2010, the food industry becomes the dominant industry and the pillar industry in the food industry which is really qualified, particularly, the roasted nuts in the leisure food develop rapidly at 15% every year, the food industry becomes the sunward industry which grows most rapidly in the traditional food industry, and the production total amount and the processing technical level of the food industry are rapidly developed. Meanwhile, various nut roasted products are popular all the time, and the nuts can generate various flavors through various processing modes, so that the requirements of more people can be met, and the annual production scale breaks through billions of customs. During the processing of roasted nuts, cooking is a common process. However, during cooking, the upper or middle nuts may not be soaked with moisture and may not be well-done or too dry. In a word, the nut is heated unevenly and seasoned unevenly easily in the cooking process, so that the cooking quality and flavor of the nut cannot be guaranteed. The biggest technical problems which plague the seed nuts such as watermelon seeds and the like are difficult shelling, difficult taste entering, low intelligent degree and the like, the prior art mostly only stops simple baking and frying, the intelligent and mechanization degrees are extremely low, and the technical problems that the watermelon seeds and the like are opened once being knocked over, the flavor is stable and the like cannot be fundamentally solved. Therefore, how to realize the technical improvement on green, intelligence, mechanization and standardization in the aspects of husking, flavor control, stable quality and the like is a great technical problem facing the industry at present.

The seed nut is generally cooked by a saucepan, the traditional saucepan can be used for the procedures of cooking, steaming, boiling and the like of food, the saucepan is usually made of iron, or made of aluminum, stainless steel and alloy, and the main components of the saucepan are a pan body and a pan bottom. In nut food processing, there is typically a cooking process; if the melon seeds are processed, the soaked melon seeds are put into the feed liquid to be cooked, a common food saucepan is used, a cooking mode of one pan and one basket is adopted, the efficiency is low, the labor intensity is high, a lot of heat is dissipated from the periphery of the pan body, the heat energy is wasted, the environment is polluted, and therefore the saucepan needs to be improved.

The existing seed nut cooking equipment can not realize large-scale production of production workshops, is low in automation degree and high in labor intensity of workers, and the problems that seed nuts produced by the traditional cooking equipment are difficult to taste, shells are difficult to knock off, the baking time is long and the like are solved, so that the healthy and rapid development of the industry is seriously influenced and limited.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects existing in the prior art, the utility model aims at providing an interval type high-pressure cooking device for seed nut food, seed nut raw materials are contained in a reticular material barrel, cooking liquid can evenly surround the seed nut raw materials through holes of the reticular material barrel, the rotary clamping connection of a top cover and a cooking pot body can be closed and opened through a rotary power mechanism B, the lifting of the top cover can be realized through a top cover lifting cylinder, the synchronous lifting of the top cover and the cooking pot body can be realized simultaneously, the integral rotary displacement operation of the top cover and the cooking pot body can be realized through a rotary power mechanism A, therefore, the utility model can realize the mechanized, flow and standardized operation of nut food processing through the combination of a plurality of power devices, greatly reduce the labor intensity of workers, and compare with the traditional cooking pot body, the automatic degree of the structure of the cooking device is higher, the large-scale production of the nut food can be realized, and the cooking efficiency and the cooking quality of the nut food are improved.

The purpose of the utility model is realized through the following technical scheme:

An interval type high-pressure cooking device for seed and nut foods comprises a rack, a rotary power mechanism A, a top cover lifting cylinder, a suspension arm, a rotary power mechanism B, a top cover rotating shaft, a top cover, a cooking pot body and a net-shaped material barrel, wherein an electric heating seat is installed at the top of the rack, the rotary power mechanism A is installed at the top of the rack through a support, the rotary power mechanism A is provided with a power output shaft, a driving gear A is installed on the power output shaft of the rotary power mechanism A, the top cover lifting cylinder is provided with a lifting rod, and a driven gear A meshed with the driving gear A is installed on the top cover lifting cylinder; a lifting arm is fixed at the top of a lifting rod of the top cover lifting cylinder, a rotating power mechanism B is installed on the lifting arm, the rotating power mechanism B is provided with a power output shaft, a driving gear B is installed on the power output shaft of the rotating power mechanism B, a top cover rotating shaft is installed on the lifting arm in a rotating mode, a driven gear B meshed with the driving gear B is installed at the top end of the top cover rotating shaft, the driven gear B is located at the top of the lifting arm, and the bottom end of the top cover rotating shaft is fixed at the top; the electric heating seat is matched with and placed with a digester pot body, the top of the digester pot body is connected with the bottom of the top cover in a rotating mode, the inner cavity of the digester pot body and the inner cavity of the top cover are communicated with each other to form a digester cavity, a netted material barrel is arranged inside the digester pot body, and the netted material barrel is fixed on the inner side wall of the top cover through a plurality of hanging rods.

In order to better realize the utility model discloses, the top cap top is opened has the gas outlet that is linked together with the inner chamber of top cap, the top cap pneumatic valve is installed in the cooperation of gas outlet department of top cap, install manual depression bar on the top cap pneumatic valve, manual depression bar is used for controlling opening and closing of top cap pneumatic valve.

Preferably, the bottom of the suspension arm is provided with a plurality of cooling spraying openings facing the top of the top cover.

Preferably, the top cover is provided with an air pressure gauge, and a measuring probe of the air pressure gauge penetrates through the top cover and is arranged in the inner cavity of the top cover.

preferably, the mesh-shaped material barrel is formed by mutually and hermetically splicing and assembling a left half barrel body and a right half barrel body, and a material barrel opening and closing device is arranged at the bottom of the mesh-shaped material barrel.

Preferably, the charging basket switching device comprises a third connecting rod A, a first connecting rod A, a third connecting rod B, a first connecting rod B, a second connecting rod A, a second connecting rod B, a left half-bottom plate switch handle and a right half-bottom plate switch handle, a charging basket vertical plate is arranged in the middle of the reticular charging basket, a charging basket left half-bottom plate is fixed at the bottom of the left half-barrel body, a charging basket right half-bottom plate is fixed at the bottom of the right half-barrel body, and the charging basket left half-bottom plate and the charging basket right half-bottom plate are rotatably mounted on the charging basket vertical plate through a charging basket bottom plate rotating shaft; the first end of the third connecting rod A is hinged to the end part of the left half bottom plate of the charging bucket far away from the rotating shaft of the bottom plate of the charging bucket through a hinge D, and the second end of the third connecting rod A is hinged to the first end of the first connecting rod A through a composite hinge A; the hinge A and the hinge B are sequentially arranged below the rotating shaft of the charging basket bottom plate from top to bottom, the second end of the first connecting rod A is arranged on the hinge A, the right end part of the left half bottom plate switch handle is arranged on the hinge B, the first end of the second connecting rod A is arranged on the composite hinge A, and the second end of the second connecting rod A is hinged to the middle part of the left half bottom plate switch handle through a hinge C; the first end of the third connecting rod B is hinged to the end part of one end of the right bottom plate of the charging bucket, which is far away from the rotating shaft of the bottom plate of the charging bucket, through a hinge E, and the second end of the third connecting rod B is hinged to the first end of the first connecting rod B through a composite hinge B; the second end of the first connecting rod B is installed on the hinge A, the left end of the right baseplate switch handle is installed on the hinge B, the first end of the second connecting rod B is installed on the composite hinge B, and the second end of the second connecting rod B is hinged to the middle of the right baseplate switch handle through the hinge F.

Preferably, the left side of the bottom of the vertical plate of the charging bucket is provided with a sliding locking block A corresponding to the left half bottom plate switch handle in a sliding and telescopic manner, and the right side of the bottom of the vertical plate of the charging bucket is provided with a sliding locking block B corresponding to the right half bottom plate switch handle in a sliding and telescopic manner.

Preferably, the cooling sprays a mouthful quantity and is two, and two cooling spray mouthful are cooling spray mouthful A and cooling spray mouthful B respectively, cooling spray mouthful A and top cap top half correspond on the left side, cooling spray mouthful B and top cap top half correspond on the right side.

Preferably, the top end of the suspender is hinged on the inner side wall of the top cover, and the bottom end of the suspender is hinged on the top of the mesh material barrel; the rotary power mechanism A is a motor or a cylinder seat steering engine, and the rotary power mechanism B is a motor or a switch cover steering engine.

Preferably, the suspension arm is provided with a rotating shaft hole in a penetrating manner, a bearing is fixedly arranged in the rotating shaft hole of the suspension arm, and the top cover rotating shaft is arranged in the bearing in a rotating fit manner; the rotary power mechanism B is fixedly arranged above the suspension arm through a support; an air cylinder rotating seat is fixed at the top of the rack, a rotating cavity is formed in the air cylinder rotating seat, and the bottom of the top cover lifting air cylinder is installed in the rotating cavity of the air cylinder rotating seat in a rotating fit manner; the electric heating seat is provided with a heating containing cavity, the heating containing cavity of the electric heating seat is matched with the bottom of the pot body of the boiling pot, and a heating device is arranged in the heating containing cavity of the electric heating seat.

Compared with the prior art, the utility model, have following advantage and beneficial effect:

(1) The utility model provides a high-pressure cooking device which can realize mechanized whole-process operation and high cooking effect on seed nut food, seed nut raw materials are contained in a reticular material barrel, cooking liquid can evenly surround the seed nut raw materials through holes of the reticular material barrel, the rotary clamping connection of a top cover and a cooking pot body can be closed and opened through a rotary power mechanism B, the lifting of the top cover can be realized through a top cover lifting cylinder, the synchronous lifting of the top cover and the cooking pot body can be realized simultaneously, the integral rotary displacement operation of the top cover and the cooking pot body can be realized through a rotary power mechanism A, therefore, the utility model can realize the mechanized, flow and standardized operation of nut food processing through the combination of a plurality of power devices, greatly reduce the labor intensity of workers, and compare with the traditional cooking pot body, the automatic degree of the structure of the cooking device is higher, the large-scale production of the nut food can be realized, and the cooking efficiency and the cooking quality of the nut food are improved.

(2) The utility model discloses a netted material bucket adopts half left staving and half right staving to splice the equipment each other and form, can rotate through storage bucket switching device and open, and easy to assemble makes up and dismantles operations such as washing, is equipped with the slip locking piece on storage bucket switching device simultaneously, splices the equipment back each other at half left staving and half right staving, has improved the overall stability of netted material bucket.

(3) The utility model discloses it is equipped with a plurality of cooling and sprays the mouth to correspond the top cap in the davit bottom, sprays the mouth through the cooling and sprays cooling water to the top cap, can realize fast to top cap, the cooking pan pot body force cooling, step-down operation, has shortened the step-down time of cooking pan cavity.

(4) The barometer of the utility model monitors the air pressure value inside the pot body of the boiling pot in real time, thereby improving the safety performance, and meanwhile, when the top cover is opened, the barometer also monitors the air pressure to prevent the danger of opening the pot body under high pressure; the utility model discloses be equipped with top cap pneumatic valve and manual depression bar on the top cap, be convenient for open the atmospheric pressure of top cap pneumatic valve in order to release the boiling pan cavity through manual depression bar in the safe pressure within range, further shortened the step-down time of boiling pan cavity.

(5) The utility model discloses carry out high-pressure cooking to seed nut leisure articles and handle, solve the seed benevolence and go into flavor difficultly, the shell is collided with the shell difficult, toast the long scheduling problem of time.

drawings

Fig. 1 is a schematic structural view of the present invention;

Fig. 2 is a partially enlarged schematic view of fig. 1.

wherein, the names corresponding to the reference numbers in the drawings are:

1-a frame, 2-a driving gear A, 3-a rotary power mechanism A, 4-a top cover lifting cylinder, 5-a suspension arm, 6-a barometer, 7-a cooling spray opening A, 8-a rotary power mechanism B, 81-a driving gear B, 9-a driven gear B, 10-a top cover rotating shaft, 11-a cooling spray opening B, 12-a top cover air valve, 13-a manual pressure reducing rod, 14-a top cover, 15-a suspension rod, 16-a mesh material barrel, 17-a digester pot body, 18-a material barrel switch device, 19-an electric heating seat, 20-a material barrel bottom plate rotating shaft, 21-a material barrel vertical plate, 22-a hinge A, 23-a hinge B, 24-a sliding lock A, 25-a first connecting rod A, 26-a hinge C, 27-a second connecting rod A, 28-a composite hinge A, 29-a left half bottom plate switch handle, 30-a third connecting rod A, 31-a hinge D, 32-a left half bottom plate and 33-a right half bottom plate of the material barrel, 34-hinge E, 35-third connecting rod B, 36-compound hinge B, 37-first connecting rod B, 38-second connecting rod B, 39-hinge F, 40-right half base plate switch handle and 41-sliding locking block B.

Detailed Description

The present invention will be described in further detail with reference to the following examples:

Examples

As shown in fig. 1 and 2, the gap type high-pressure cooking device for seed and nut foods comprises a rack 1, a rotary power mechanism A3, a top cover lifting cylinder 4, a suspension arm 5, a rotary power mechanism B8, a top cover rotating shaft 10, a top cover 14, a cooking pot body 17 and a mesh material barrel 16, wherein an electric heating seat 19 is installed at the top of the rack 1, a rotary power mechanism A3 is installed at the top of the rack 1 through a support, the rotary power mechanism A3 is preferably a motor or a cylinder block steering engine, the rotary power mechanism A3 is provided with a power output shaft, a driving gear A2 is installed on the power output shaft of the rotary power mechanism A3, the top cover lifting cylinder 4 is provided with a lifting rod, and a driven gear A meshed with the driving gear A2 is installed on. The top of a lifting rod of the top cover lifting cylinder 4 is fixedly provided with a lifting arm 5, the lifting arm 5 is provided with a rotary power mechanism B8, the rotary power mechanism B8 is preferably a motor or a switch cover steering engine, the rotary power mechanism B8 is provided with a power output shaft, a driving gear B81 is arranged on the power output shaft of the rotary power mechanism B8, the lifting arm 5 is rotatably provided with a top cover rotating shaft 10, the top end of the top cover rotating shaft 10 is provided with a driven gear B9 meshed with the driving gear B81, the driven gear B9 is positioned at the top of the lifting arm 5, and the bottom end of. The cooperation has been placed boiling pan pot body 17 on the electricity heating seat 19, and boiling pan pot body 17 top and the rotatory joint in top cap 14 bottom, and boiling pan pot body 17's inner chamber and top cap 14's inner chamber communicate into the boiling pan cavity each other, and boiling pan pot body 17 is inside to be equipped with netted material bucket 16, and netted material bucket 16 is fixed in on the 14 inside walls of top cap through a plurality of jib 15, the utility model discloses preferred 15 tops of jib articulate on the 14 inside walls of top cap, 15 bottoms of jib articulate in netted material bucket 16 tops.

As shown in fig. 1, an air outlet communicated with an inner cavity of the top cover 14 is formed in the top of the top cover 14, a top cover air valve 12 is installed at the air outlet of the top cover 14 in a matching manner, a manual pressure-reducing rod 13 is installed on the top cover air valve 12, and the manual pressure-reducing rod 13 is used for controlling the opening and closing of the top cover air valve 12. When the pressure-reducing valve is used, the opening and closing of the top cover air valve 12 can be controlled through the manual pressure-reducing rod 13, so that the high-pressure air leakage or high-pressure air closing operation of the digester cavity (the digester cavity is formed by mutually communicating the inner cavity of the digester body 17 and the inner cavity of the top cover 14).

The bottom of the suspension arm 5 is provided with a plurality of cooling spray ports facing the top of the top cover 14, as shown in fig. 1, the number of the cooling spray ports is two, the two cooling spray ports are respectively a cooling spray port A7 and a cooling spray port B11, the cooling spray port A7 corresponds to the left half of the top cover 14, and the cooling spray port B11 corresponds to the right half of the top cover 14.

As shown in fig. 1, the top cover 14 is provided with an air pressure gauge 6, and a measuring probe of the air pressure gauge 6 penetrates through the top cover 14 and is arranged in an inner cavity of the top cover 14; when the pressure gauge is used, the air pressure inside the cavity of the digester can be measured in real time through the air pressure gauge 6.

The utility model discloses preferred netted material bucket 16 is assembled by the mutual airtight concatenation of half left staving and half right staving, and netted material bucket 16 bottom is equipped with storage bucket switching device 18, and storage bucket switching device 18 includes half left staving opening device and half right staving opening device, can rotate half left staving towards keeping away from half right staving direction through half left staving opening device to rotate half left staving and open; through right half staving opening device can be with the rotation of right half staving orientation keeping away from left half staving direction to open right half staving rotation. As shown in fig. 2, the material barrel opening and closing device 18 includes a third connecting rod a30, a first connecting rod a25, a third connecting rod B35, a first connecting rod B37, a second connecting rod a27, a second connecting rod B38, a left half bottom plate switch handle 29 and a right half bottom plate switch handle 40, a material barrel vertical plate 21 is disposed in the middle of the reticular material barrel 16, a left half bottom plate 32 of the material barrel is fixed at the bottom of the left half barrel body, a right half bottom plate 33 of the material barrel is fixed at the bottom of the right half barrel body, and the left half bottom plate 32 of the material barrel and the right half bottom plate 33 of the material barrel are rotatably mounted on the material barrel vertical plate 21 through a material barrel bottom plate. The first end of the third connecting rod a30 is hinged to the end of the left bottom plate 32 far away from the rotating shaft 20 of the bottom plate of the charging basket through a hinge D31, and the second end of the third connecting rod a30 is hinged to the first end of the first connecting rod a25 through a composite hinge a 28. The charging bucket bottom plate rotating shaft 20 is located below the charging bucket bottom plate rotating shaft 20 and is sequentially provided with a hinge A22 and a hinge B23 from top to bottom, the second end of a first connecting rod A25 is installed on the hinge A22, the right end part of the left half bottom plate switch handle 29 is installed on the hinge B23, the first end of a second connecting rod A27 is installed on the composite hinge A28, and the second end of the second connecting rod A27 is hinged to the middle part of the left half bottom plate switch handle 29 through the hinge C26. The first end of the third link B35 is hinged to the end of the right bottom plate 33 away from the rotation shaft 20 of the bottom plate of the charging basket through a hinge E34, and the second end of the third link B35 is hinged to the first end of the first link B37 through a compound hinge B36. The second end of the first connecting rod B37 is installed on the hinge A22, the left end of the right bottom plate switch handle half 40 is installed on the hinge B23, the first end of the second connecting rod B38 is installed on the composite hinge B36, and the second end of the second connecting rod B38 is hinged to the middle of the right bottom plate switch handle half 40 through the hinge F39.

As shown in fig. 2, a sliding lock block a24 corresponding to the left half bottom plate switch handle 29 is slidably and telescopically mounted on the left side of the bottom of the vertical bucket plate 21, and a sliding lock block B41 corresponding to the right half bottom plate switch handle 40 is slidably and telescopically mounted on the right side of the bottom of the vertical bucket plate 21.

As shown in fig. 1, a rotation shaft hole is formed through the boom 5, a bearing is fixedly installed in the rotation shaft hole of the boom 5, and the top cover rotation shaft 10 is installed in the bearing in a rotating fit manner. The rotary power mechanism B8 is fixed above the suspension arm 5 through a bracket. The top of the frame 1 is fixed with a cylinder rotating seat, a rotating cavity is formed in the cylinder rotating seat, and the bottom of the top cover lifting cylinder 4 is installed in the rotating cavity of the cylinder rotating seat in a rotating fit mode. As shown in FIG. 1, the electric heating base 19 has a heating accommodating cavity, the heating accommodating cavity of the electric heating base 19 is matched with the bottom of the pot body 17 of the digester, and a heating device is installed in the heating accommodating cavity of the electric heating base 19.

The working principle of the gap type high-pressure cooking device of the utility model is as follows:

The left half barrel body and the right half barrel body of the mesh-shaped material barrel 16 are mutually hermetically spliced through the material barrel opening and closing device 18, seed nut raw materials needing to be cooked are filled into the mesh-shaped material barrel 16, and then the mesh-shaped material barrel 16 is hung below the top cover 14 through the two hanging rods 15. The cooking liquid is filled in the cooking pot body 17, the rotating power mechanism B8 is started, the rotating power mechanism B8 drives the top cover 14 to be closed and clamped at the top of the cooking pot body 17, the top cover lifting cylinder 4 is started, the top cover lifting cylinder 4 drives the lifting rod to move up and down, and the lifting rod of the top cover lifting cylinder 4 drives the lifting arm 5 and the top cover 14 to move up and down synchronously to reach a proper height position. The rotary power mechanism A3 is started, the rotary power mechanism A3 drives the driving gear A2 to rotate, the driving gear A2 drives the driven gear A and the top cover lifting cylinder 4 to rotate, the top cover 14, the reticular material barrel 16 and the digester pot body 17 are integrally and synchronously rotated to the upper side of the electric heating seat 19, and then the top cover 14, the reticular material barrel 16 and the digester pot body 17 are integrally matched and placed in a heating containing cavity of the electric heating seat 19 through the top cover lifting cylinder 4. The heating device of the electric heating seat 19 is started to heat the digester pot body 17, the air pressure in the digester pot body 17 rises to form high pressure, the seed and nut raw materials in the mesh-shaped material barrel 16 are subjected to high-pressure cooking operation, and the air pressure meter 6 monitors the air pressure value in the digester pot body 17 in real time. After cooking, the top cover lifting cylinder 4 is started to integrally lift a part of the top cover 14, the reticular material barrel 16 and the digester pot body 17, then the rotary power mechanism A3 is started to integrally rotate and move the top cover 14, the reticular material barrel 16 and the digester pot body 17 into a cooling area, cooling water is sprayed on the top cover 14 through all cooling spraying openings A7 to realize rapid forced cooling and pressure reduction operations on the top cover 14 and the digester pot body 17, the barometer 6 monitors the air pressure value in the digester pot body 17 in real time, and after the cooling and pressure reduction operations are finished, the manual pressure reduction rod 13 controls the top cover air valve 12 to open and release pressure; then, the top cover 14 is driven to rotate and open from the top of the digester pot body 17 through the rotating power mechanism B8, so that the top cover 14 and the digester pot body 17 are separated from each other, the left half barrel body and the right half barrel body of the mesh-shaped material barrel 16 are separated through the material barrel opening and closing device 18, seed nut food in the mesh-shaped material barrel 16 is released, or the mesh-shaped material barrel 16 is directly poured to release the seed nut food. After the left half barrel body and the right half barrel body of the mesh-shaped material barrel 16 are separated by the material barrel opening and closing device 18, the left half barrel body and the right half barrel body of the mesh-shaped material barrel 16 can be respectively cleaned for the next seed nut food cooking operation.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. An interval type high-pressure cooking device for seed nut food is characterized in that: the electric heating device comprises a rack (1), a rotary power mechanism A (3), a top cover lifting cylinder (4), a suspension arm (5), a rotary power mechanism B (8), a top cover rotating shaft (10), a top cover (14), a digester pot body (17) and a netted material barrel (16), wherein an electric heating seat (19) is installed at the top of the rack (1), the rotary power mechanism A (3) is installed at the top of the rack (1) through a support, the rotary power mechanism A (3) is provided with a power output shaft, a driving gear A (2) is installed on the power output shaft of the rotary power mechanism A (3), the top cover lifting cylinder (4) is provided with a lifting rod, and a driven gear A meshed with the driving gear A (2) is installed on the top cover lifting cylinder (4); a lifting arm (5) is fixed to the top of a lifting rod of the top cover lifting cylinder (4), a rotating power mechanism B (8) is installed on the lifting arm (5), the rotating power mechanism B (8) is provided with a power output shaft, a driving gear B (81) is installed on the power output shaft of the rotating power mechanism B (8), a top cover rotating shaft (10) is installed on the lifting arm (5) in a rotating mode, a driven gear B (9) meshed with the driving gear B (81) is installed at the top end of the top cover rotating shaft (10), and the bottom end of the top cover rotating shaft (10) is fixed to the top of a top cover (14); the electric heating seat (19) is provided with a cooking pot body (17) in a matched mode, the top of the cooking pot body (17) is connected with the bottom of the top cover (14) in a rotating mode, a mesh-shaped material barrel (16) is arranged inside the cooking pot body (17), and the mesh-shaped material barrel (16) is fixed on the inner side wall of the top cover (14) through a plurality of hanging rods (15).

2. The batch autoclave apparatus of claim 1, wherein: the top cover is characterized in that the top of the top cover (14) is provided with an air outlet communicated with the inner cavity of the top cover (14), the air outlet of the top cover (14) is provided with a top cover air valve (12) in a matching mode, the top cover air valve (12) is provided with a manual pressure reducing rod (13), and the manual pressure reducing rod (13) is used for controlling the opening and closing of the top cover air valve (12).

3. The batch autoclave apparatus of claim 1, wherein: and a plurality of cooling spray ports are formed in the bottom of the suspension arm (5) towards the top of the top cover (14).

4. The batch autoclave apparatus of claim 1, wherein: the top cover (14) is provided with an air pressure gauge (6), and a measuring probe of the air pressure gauge (6) penetrates through the top cover (14) and is arranged in an inner cavity of the top cover (14).

5. the batch autoclave apparatus of claim 1, wherein: the net-shaped material barrel (16) is formed by mutually and airtightly splicing and assembling a left half barrel body and a right half barrel body, and a material barrel switch device (18) is arranged at the bottom of the net-shaped material barrel (16).

6. An intermittent autoclaving apparatus for seed nut food products as set forth in claim 5 wherein: the charging bucket switching device (18) comprises a third connecting rod A (30), a first connecting rod A (25), a third connecting rod B (35), a first connecting rod B (37), a second connecting rod A (27), a second connecting rod B (38), a left half bottom plate switch handle (29) and a right half bottom plate switch handle (40), a charging bucket vertical plate (21) is arranged in the middle of the reticular charging bucket (16), a charging bucket left half bottom plate (32) is fixed at the bottom of the left half bucket body, a charging bucket right half bottom plate (33) is fixed at the bottom of the right half bucket body, and the charging bucket left half bottom plate (32) and the charging bucket right half bottom plate (33) are rotatably installed on the charging bucket vertical plate (21) through a charging bucket bottom plate rotating shaft (20); the first end of the third connecting rod A (30) is hinged to the end part, away from the rotating shaft (20) of the bottom plate of the charging bucket, of the left half bottom plate (32) of the charging bucket through a hinge D (31), and the second end of the third connecting rod A (30) is hinged to the first end of the first connecting rod A (25) through a composite hinge A (28); the charging bucket bottom plate rotating shaft (20) is positioned below the charging bucket bottom plate rotating shaft (20) and is sequentially provided with a hinge A (22) and a hinge B (23) from top to bottom, the second end of the first connecting rod A (25) is arranged on the hinge A (22), the right end part of the left half bottom plate switch handle (29) is arranged on the hinge B (23), the first end of the second connecting rod A (27) is arranged on the composite hinge A (28), and the second end of the second connecting rod A (27) is hinged to the middle part of the left half bottom plate switch handle (29) through a hinge C (26); the first end of the third connecting rod B (35) is hinged to the end part, away from the rotating shaft (20) of the bottom plate of the charging bucket, of the right half bottom plate (33) of the charging bucket through a hinge E (34), and the second end of the third connecting rod B (35) is hinged to the first end of the first connecting rod B (37) through a composite hinge B (36); the second end of the first connecting rod B (37) is installed on the hinge A (22), the left end of the right half base plate switch handle (40) is installed on the hinge B (23), the first end of the second connecting rod B (38) is installed on the composite hinge B (36), and the second end of the second connecting rod B (38) is hinged to the middle of the right half base plate switch handle (40) through the hinge F (39).

7. An intermittent autoclaving apparatus for seed nut food products as set forth in claim 6 wherein: the left side of the bottom of the vertical plate (21) of the charging bucket is provided with a sliding locking block A (24) corresponding to the left half bottom plate switch handle (29) in a sliding and telescopic manner, and the right side of the bottom of the vertical plate (21) of the charging bucket is provided with a sliding locking block B (41) corresponding to the right half bottom plate switch handle (40) in a sliding and telescopic manner.

8. An intermittent autoclaving apparatus for seed nut food products as set forth in claim 3 wherein: the cooling sprays a mouthful quantity and is two, and two cooling spray mouthful are respectively for cooling spray mouthful A (7) and cooling spray mouthful B (11), cooling spray mouthful A (7) and top cap (14) top half part on the left correspond, cooling spray mouthful B (11) and top cap (14) top half part on the right correspond.

9. The batch autoclave apparatus of claim 1, wherein: the top end of the suspender (15) is hinged on the inner side wall of the top cover (14), and the bottom end of the suspender (15) is hinged on the top of the mesh-shaped material barrel (16); the rotary power mechanism A (3) is a motor or a cylinder seat steering engine, and the rotary power mechanism B (8) is a motor or a switch cover steering engine.

10. the batch autoclave apparatus of claim 1, wherein: the suspension arm (5) penetrates through a rotating shaft hole, a bearing is fixedly arranged in the rotating shaft hole of the suspension arm (5), and the top cover rotating shaft (10) is arranged in the bearing in a rotating fit manner; the rotary power mechanism B (8) is fixedly arranged above the suspension arm (5) through a support; an air cylinder rotating seat is fixed at the top of the rack (1), a rotating cavity is formed in the air cylinder rotating seat, and the bottom of the top cover lifting air cylinder (4) is installed in the rotating cavity of the air cylinder rotating seat in a rotating fit manner; the electric heating seat (19) is provided with a heating containing cavity, the heating containing cavity of the electric heating seat (19) is matched with the bottom of the pot body (17) of the boiling pot, and a heating device is arranged in the heating containing cavity of the electric heating seat (19).