CN213848617U

CN213848617U - Heat-preservation steam pot for producing dried bean milk cream in tight rolls

Info

Publication number: CN213848617U
Application number: CN202022975420.5U
Authority: CN
Inventors: 陈文山
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-14
Filing date: 2020-12-14
Publication date: 2021-08-03
Anticipated expiration: 2030-12-14

Abstract

The utility model firstly provides a heat preservation steam pot for bean curd stick-oil skin production, which solves the problems of uneven temperature and incapability of guaranteeing the flatness of the bottom of the pot body in the traditional pot body, and comprises a shell of the pot body, a container fixed above the shell and used for condensing oil skins, and a heating device positioned in the shell, wherein the bottom of each container is composed of a bottom plate, a support framework is arranged below the bottom plate, the support framework comprises a transverse beam array formed by arranging a plurality of cross beams in a spaced array manner and also comprises a longitudinal beam array formed by arranging a plurality of longitudinal beams in a spaced array manner, the transverse beam array and the longitudinal beam array are fixedly stacked and arranged, the supporting leg array is formed by a plurality of supporting legs which are uniformly distributed between the transverse beam array and the bottom plate at intervals, and the supporting legs are fixedly connected with the bottom plate and the transverse beams to uniformly support and fix the bottom plate.

Description

Heat-preservation steam pot for producing dried bean milk cream in tight rolls

Technical Field

The utility model relates to a pot for producing bean curd sheets and bean curd sticks, in particular to a heat-preservation steam pot for producing bean curd sticks and bean curd sticks.

Background

The oil skin and the dried beancurd sticks are formed by naturally coagulating the surface of the cooked hot soybean milk, and the natural coagulating process needs to be kept at a proper temperature. In the industrial production, a pot body for coagulating the oil skins and the dried beancurd sticks is provided with a plurality of containers for coagulating, the containers need to discharge slurry and pick skins uniformly, and in order to match with the industrial large-scale production, the coagulation generation time of the oil skins and the bean skins of each container needs to be synchronous, so that the temperature of each container needs to be uniformly distributed, and the uniform regulation and control are convenient.

On the other hand, in the industrial production, in order to expand the production efficiency and pursue benefits, more containers are always arranged on the pan body, the diameter range of the pan body is generally 50-100CM, when a plurality of containers are assembled with the same pan body, the volume of the pan body becomes extremely large, and under the condition that the length of the pan body is greatly enhanced, the bottom of the pan body is inevitably deformed due to the influences of material bending, welding, assembling and long-term loading, so that the bottom flatness cannot be ensured. This causes that the uneven part of the bottom of the pan body is easy to retain pulp, and the part of the retained pulp can not be utilized, which causes waste of production data.

SUMMERY OF THE UTILITY MODEL

In view of the above situation, in order to overcome the defects of the prior art, the utility model firstly provides a heat preservation steam pot for the production of dried bean milk cream rolls, so as to solve the problems of uneven temperature and the problem that the flatness of the bottom of the pot body can not be guaranteed in the traditional pot body.

The technical scheme is that the heating device comprises a shell of a pot body, a container for condensing oil skin and a heating device, wherein the container is fixed above the shell, the heating device is positioned inside the shell, the bottom of the container is formed by a bottom plate, a supporting framework is arranged below the bottom plate, the supporting framework comprises a transverse beam array formed by arranging a plurality of cross beams in an array mode at intervals, a longitudinal beam array formed by arranging a plurality of longitudinal beams in an array mode is further included, the transverse beam array is fixedly stacked with the longitudinal beam array and further comprises a supporting leg array formed by a plurality of supporting legs between the transverse beam array and the bottom plate in an evenly supporting mode, and each supporting leg is fixedly connected with the bottom plate and the transverse beams to form an evenly supporting for the bottom plate.

In the above or some embodiments, the casing is enclosed to form a closed cavity, and the support framework is located in the cavity and forms a structure fixedly connected with the inner wall of the casing.

In the above or some embodiments, the temperature increasing device includes a steam pipeline distributed on the support frame and fixedly connected to the support frame, the steam pipeline is provided with a steam hole communicated with the inside of the casing, and the temperature increasing device further includes an air inlet pipeline communicated with the steam pipeline, and the air inlet pipeline is partially exposed outside the casing.

In the above or some embodiments, a buffer is provided between the air inlet pipeline and the steam pipeline, and each steam pipeline is communicated with the air inlet pipeline through the buffer.

In one embodiment, the container is formed by a plate-like material vertically fixed to and enclosed by the upper surface of the housing.

In the above or some embodiments, the bottom plate is formed by splicing and fixing a plurality of plate-shaped structures.

In the above or some embodiments, the inner sides of the vertical surface and the bottom surface of the shell are fixedly provided with the heat insulation boards.

This patent is through the grid column structure that horizontal beam array and vertical beam array formed when specifically using, make skeleton texture's rigidity obtain great promotion, rigid support has been formed, the supporting legs that utilizes the dot matrix to distribute simultaneously supports fixed even bottom plate stress structure that has formed to the bottom plate, its result shows, the roughness of bottom plate promotes greatly, and this scheme adopts steam heating's heating methods, high temperature steam can form evenly distributed in the airtight cavity of casing formation, can compromise a plurality of containers simultaneously, keep the container to remain throughout at same temperature, conveniently unify the operation.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an enlarged schematic view of a portion a of fig. 1.

FIG. 3 is a schematic diagram of an array structure of the supporting legs, the bottom plate and the transverse beams.

Fig. 4 is a schematic view of an embodiment of the steam pipeline and the buffer in the present scheme.

Fig. 5 is an enlarged schematic view of a portion B in fig. 4.

Fig. 6 is a schematic perspective view of the present invention.

Detailed Description

The following detailed description is made with reference to the accompanying drawings.

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 without creative work belong to the protection scope of the present invention.

Those of ordinary skill in the art will recognize that the directional terms "upper," "lower," "outer," "inner," etc., are used in a descriptive sense with respect to the figures and are not intended to limit the scope of the claims.

As shown in fig. 1-3, the housing 100 includes side plates at the vertical position and upper and lower side plates at the bottom and top, the housing 100 forms a structure for closing and protecting the inside, and the closed cavity 101 is used for fixing and installing the supporting framework 300, in one embodiment of the present scheme, the upper side plate at the top of the housing 100 forms a bottom plate 201 of each container 200 of the pot body, the bottom plate 201 is fixedly connected with supporting legs 303 distributed in an array, the bottom plate 201 can be formed by splicing a plurality of smaller plate-shaped structures, then the container 200 for containing slurry is formed on the upper surface of the bottom plate 201 by enclosing an upright surrounding plate, and communication holes are provided between the containers 200 in the same column for keeping the slurry in each container 200 consistent.

The supporting framework 300 comprises a transverse beam array formed by arranging a plurality of transverse beams 301 in an interval array mode, and further comprises a longitudinal beam array formed by arranging a plurality of longitudinal beams 302 in an interval array mode, the transverse beam array and the longitudinal beam array are fixedly stacked, the transverse beams and the longitudinal beams are made of square stainless steel with good uniform and specified anti-flexibility performance, and further comprises a supporting foot 303 array formed by uniformly distributing a plurality of supporting feet 303 between the transverse beam array and the bottom plate 201 in an interval mode, each supporting foot 303 is fixedly connected with the bottom plate 201 and the transverse beams to form uniform supporting and fixing for the bottom plate 201, the positions of the supporting feet 303 connected with the adjacent transverse beams do not pass through, the supporting feet 303 are fixed on the adjacent transverse beams in a staggered and uniform arrangement mode, in order to enhance the supporting effect of the supporting feet 303 and increase the stress area, each supporting foot 303 is of an integrally formed isosceles trapezoid structure, the small ends of the support legs 303 are fixed to the transverse beam, and the large sections of the support legs 303 are fixed to the bottom plate 201.

The heating device comprises steam pipelines 400 distributed on a support framework 300 and fixedly connected with the support framework 300, wherein the steam pipelines 400 are provided with steam holes 401 communicated with the interior of a shell 100, the heating device also comprises air inlet pipelines 402 communicated with the steam pipelines 400, the air inlet pipelines 402 are partially exposed out of the shell 100, a buffer 500 is arranged between the air inlet pipelines 402 and the steam pipelines 400, and each steam pipeline 400 is communicated with the air inlet pipelines 402 through the buffer 500. In the above embodiment, the buffer 500 is a structure of the closed container 200 having the cavity 101 therein, and includes an air inlet and a plurality of air outlets corresponding to the joints of the steam pipeline 400, and the steam with relatively high pressure enters the buffer 500 to be buffered and then is distributed into the whole cavity 101 through the steam pipeline 400 via the air outlets, in order to facilitate the arrangement of the steam pipeline 400, corresponding through holes are provided at the middle of each of the transverse beams, and the steam pipeline 400 is arranged on the transverse beam array along the through holes.

The heat preservation device, certainly in order to reduce the energy consumption, realize better heat preservation effect, in above-mentioned or some embodiments, the inboard of casing 100 facade and bottom surface is fixed respectively and is equipped with heated board 600, and cavity 101 of casing 100 is too big in order to prevent pressure simultaneously, set up the relief valve that is used for the pressure release on the casing 100 equally, on the other hand casing 100 still including being provided with the return circuit interface that is used for steam circuit and being used for drawing forth comdenstion water inlet, the inlet is located the below of casing, return circuit interface intercommunication and cavity 101.

Claims

1. A heat preservation steam pot for dried bean-oil skin production, including casing (100) of the pot body to and the fixed container (200) that is used for condensing the oil skin of casing (100) top department, still include the device that heats that is located casing (100) inside, characterized in that, each container (200) bottom constitutes by a bottom plate (201), bottom plate (201) below is equipped with supporting framework (300), supporting framework (300) include the horizontal beam array that is arranged and forms by a plurality of crossbeams (301) interval array, still include the vertical beam array that a plurality of longerons (302) interval array were arranged and form, horizontal beam array with vertical beam array is fixed to be stacked the setting, still include supporting legs (303) array that even interval distribution formed in horizontal beam array with a plurality of supporting legs (303) between bottom plate (201), each supporting leg (303) and bottom plate (201), The transverse beams are fixedly connected to form uniform supporting and fixing for the bottom plate (201).

2. A heat-insulating steamer as claimed in claim 1, characterized in that the casing (100) encloses a closed cavity (101), and the supporting framework (300) is located in the cavity (101) and forms a structure fixedly connected with the inner wall of the casing (100).

3. The heat-preservation steamer as claimed in claim 2, wherein the temperature raising device comprises steam pipes (400) distributed on the supporting frame (300) and fixedly connected with the supporting frame (300), the steam pipes (400) are provided with steam holes (401) communicated with the inside of the casing (100), and further comprises air inlet pipes (402) communicated with the steam pipes (400), and the air inlet pipes (402) are partially exposed out of the casing (100).

4. A heat-preserving steamer as claimed in claim 3, characterized in that a buffer (500) is arranged between the air inlet pipe (402) and the steam pipes (400), and each steam pipe (400) is in communication with the air inlet pipe (402) via the buffer (500).

5. A thermal steamer according to any of claims 1 to 3, characterized in that the vessel (200) is formed by a plate-like material which is vertically fixed to and encloses the upper surface of the casing (100).

6. A heat-insulating steamer as claimed in claim 4, characterized in that the bottom plate (201) is formed by splicing and fixing a plurality of plate-like structures.

7. The heat-preservation steamer as claimed in claim 4, wherein the heat-preservation boards (600) are fixed on the inner sides of the vertical surface and the bottom surface of the casing (100).