CN216946937U - Steam pot is used in tryptone production - Google Patents

Abstract

The utility model relates to a steaming tank for producing tryptone. This steam ager is used in tryptone production includes a jar body, fixedly connected with sealed shell on the outer wall of the jar body, be equipped with the heating pipe in the sealed shell, be equipped with the conduction oil in the sealed shell, the upper end of the jar body is equipped with the inlet pipe, the lower extreme of the jar body is equipped with the discharging pipe, the inlet pipe upper end articulates there is sealed lid down, the jar is internal to be equipped with the drive go up actuating mechanism and the drive that sealed lid opened and closed down the lower actuating mechanism that sealed lid opened and closed down, the outer wall fixedly connected with of inlet pipe with the outlet duct of the inside intercommunication of inlet pipe, fixedly connected with stop valve on the outlet duct. Compared with the prior art, the tryptone raw material is cooked by the steaming pot for producing the tryptone, the heating speed of the tryptone raw material is high, the heating uniformity is high, and steam generated in the cooking process cannot influence the surrounding environment.

Description

Steam pot is used in tryptone production

Technical Field

The utility model belongs to the technical field of garbage crushing devices, and particularly relates to a steaming tank for tryptone production.

Background

Peptone is an organic compound, the peptone is light yellow powder which is prepared by hydrolyzing meat, casein or gelatin with acid or protease and then drying, the peptone has special smell of meat flavor, the protein can be decomposed with acid, alkali or protease to form peptone, one of the primary digestion products of the protein in the stomach is the peptone which is rich in organic nitrogen compounds and contains some vitamins and saccharides, the peptone can be used as the main raw material of a microbial culture medium, the dosage of the peptone in the fields of antibiotics, medicine industry, fermentation industry, biochemical products, microbiological research and the like is large, the peptone can be used for treating digestive tract diseases, different organisms need specific amino acids and polypeptides, therefore, various peptones exist, generally, the protein for producing the peptone comprises animal protein (casein, meat), plant protein (beans), vegetable protein (beans), and the like, Three microbial proteins (yeast) and the like can provide nutrients such as C source, N source, growth factors and the like for the microorganisms.

Peptone needs to be cooked in process of production, often is heated not fast enough now in the process of cooking, and is not enough, has reduced peptone's production efficiency. The smell generated in the cooking process is also large, and the air quality of a peptone cooking workshop is reduced.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides a steaming tank for tryptone production, which aims to solve the technical problems of low heating speed and uneven heating of tryptone raw materials in the existing steaming tank.

The utility model relates to a technical scheme of a steaming tank for tryptone production, which comprises the following steps:

the utility model provides a steam ager is used in tryptone production, which comprises a tank body, the sealed shell of fixedly connected with on the outer wall of the jar body, be equipped with the heating pipe in the sealed shell, be equipped with the conduction oil in the sealed shell, the upper end of the jar body is equipped with the inlet pipe, the lower extreme of the jar body is equipped with the discharging pipe, the inlet pipe upper end articulates there is sealed lid, the discharging pipe lower extreme articulates there is sealed lid down, be equipped with the drive on the jar body last actuating mechanism and the drive that sealed lid opened and closed last actuating mechanism that sealed lid opened and closed down, the outer wall fixedly connected with of inlet pipe with the outlet duct of the inside intercommunication of inlet pipe, fixedly connected with stop valve on the outlet duct.

As a further improvement to the above technical scheme, the jar body includes cylindricality section of thick bamboo section, fixed connection be in arc lid section and the fixed connection of cylindricality section of thick bamboo section upper end are in the arc bottom segment of cylindricality section of thick bamboo section lower extreme, inlet pipe fixed connection be in on the arc lid section outer wall, discharging pipe fixed connection be in on the outer wall of arc lid section.

As a further improvement to the technical scheme, the upper driving mechanism comprises an upper telescopic cylinder, an upper mounting plate is fixedly connected to the outer wall of the sealing shell, a cylinder body of the upper telescopic cylinder is hinged to the upper mounting plate, and the end part of a piston rod of the upper telescopic cylinder is hinged to the upper sealing cover.

As a further improvement to the technical scheme, the lower driving mechanism comprises a lower telescopic cylinder, a lower mounting plate is fixedly connected to the outer wall of the sealing shell, the cylinder body of the lower telescopic cylinder is hinged to the lower mounting plate, and the end part of the piston rod of the lower telescopic cylinder is hinged to the lower sealing cover.

As a further improvement to the technical scheme, the feeding pipe and the discharging pipe are positioned on two sides of the tank body.

As a further improvement to the technical scheme, a driving motor is fixedly connected to the middle position of the lower end of the tank body, a stirring rod is rotatably assembled in the tank body, and an output shaft of the driving motor is fixedly connected with the stirring rod.

As a further improvement to the above technical scheme, the lower end of the tank body is fixedly connected with a plurality of supporting legs, and the lower ends of the supporting legs are fixedly connected with supporting plates.

The utility model provides a steaming tank for tryptone production, which has the following beneficial effects compared with the prior art:

when the steaming tank for producing the tryptone is used, the piston rod of the upper telescopic cylinder contracts, the upper telescopic cylinder drives the upper sealing cover to rotate, and the feeding pipe is opened by the upper sealing cover. And a piston rod of the lower telescopic cylinder extends out, and the lower telescopic cylinder drives the lower sealing cover to close the discharge pipe. The pancreatic protein raw material and water are added into the tank body, the piston rod of the upper telescopic cylinder extends out, the upper telescopic cylinder drives the upper sealing cover to close the feeding pipe, and the stop valve on the air outlet pipe is closed. And starting a heating pipe in the sealing shell to heat the heat conducting oil in the sealing shell, wherein the heat conducting oil heats the internal pancreatic protein raw material and water of the steaming tank, and the pancreatic protein raw material is steamed. In the process, the driving motor drives the stirring rod in the tank body to rotate, and the stirring rod stirs the water and the pancreatic protein raw material in the tank body. The upper sealing cover seals the feeding pipe, the lower sealing cover seals the discharging pipe, so that a closed cavity is formed in the tank body, hot steam is collected in the tank body to form high pressure, and the heating speed of the pancreatic protein raw material is increased; the stirring rod stirs the pancreatic protein raw material, so that the heating uniformity of the pancreatic protein raw material is enhanced. After the cooking is closed, the outer wall exhaust tube is connected with the air outlet tube, the stop valve is opened, the air in the tank body is pumped out by the exhaust tube, then the lower sealing cover is opened by the lower telescopic cylinder, and the pancreatic protein raw material after the cooking in the tank body flows out from the discharge tube. Compared with the prior art, the tryptone raw material is cooked by the steaming pot for producing the tryptone, the heating speed of the tryptone raw material is high, the heating uniformity is high, and steam generated in the cooking process cannot influence the surrounding environment.

Drawings

FIG. 1 is a first schematic view of the structure of a digester for tryptone production according to the present invention;

FIG. 2 is a second schematic view of the structure of a digester for tryptone production according to the present invention;

FIG. 3 is a third schematic view of the structure of a digester for tryptone production according to the present invention;

FIG. 4 is a schematic view of the internal structure of a digester for the production of tryptone according to the present invention;

in the figure: 1. a cylindrical barrel section; 2. an arc-shaped cover section; 3. an arc-shaped bottom section; 4. a tank body; 5. supporting legs; 6. a support plate; 7. a drive motor; 8. a stirring rod; 9. sealing the shell; 10. heating a tube; 11. a feed pipe; 12. an upper sealing cover; 13. an upper telescopic cylinder; 14. an upper mounting plate; 15. a discharge pipe; 16. a lower sealing cover; 17. a lower telescopic cylinder; 18. a lower mounting plate; 19. an air outlet pipe; 20. a stop valve.

Detailed Description

The utility model is described in further detail below with reference to the following figures and detailed description:

the specific embodiment of the steaming tank for tryptone production comprises a tank body 4, wherein the tank body 4 comprises an arc-shaped cover section 2, a cylindrical barrel section 1 and an arc-shaped bottom section 3, the arc-shaped cover section 2 is welded at the upper end of the cylindrical barrel section 1, and the arc-shaped bottom section 3 is welded at the lower end of the cylindrical barrel section 1, as shown in figures 1 to 4. The inner wall of the arc cover section 2 is in smooth transition with the inner wall of the cylindrical barrel section 1, and the inner wall of the arc bottom section 3 is in smooth transition with the inner wall of the cylindrical barrel section 1.

In this embodiment, the welding of the lower extreme of arc end section 3 has three supporting leg 5, and 3 circumference evenly spaced arrangements at the end section are followed to three supporting leg 5. The lower extreme fixedly connected with backup pad 6 of supporting leg 5, supporting leg 5 are the cylinder, backup pad 6 and the circular slab coaxial with supporting leg 5.

In this embodiment, the outer wall of the cylindrical barrel section 1 is fixedly connected with a sealing shell 9, and the sealing shell 9 is of a cylindrical structure. The upper end and the lower end of the sealing shell 9 are respectively provided with a mounting hole matched with the cylindrical barrel section 1, and the mounting holes are round holes matched with the cylindrical barrel section 1. Sealed shell 9 and upper and lower two mounting holes respectively with 1 outer wall welded fastening of cylindricality section of thick bamboo section, sealed shell 9 and 1 seal weld of cylindricality section of thick bamboo section to guarantee sealed shell 9's closure. A plurality of annular heating pipes 10 are arranged in the sealing shell 9, and a control box electrically connected with the heating pipes 10 is arranged outside the tank body 4. The sealed shell 9 is filled with heat conducting oil to enhance the heating uniformity in the sealed shell 9.

In this embodiment, fixedly connected with inlet pipe 11 on the outer wall of arc lid section 2, inlet pipe 11 and the inside intercommunication of jar body 4. The feeding pipe 11 extends obliquely upwards, and an upper sealing cover 12 is hinged to an upper end pipe opening of the feeding pipe 11. Install the last actuating mechanism that sealed lid 12 opened and closed inlet pipe 11 on the drive on the sealed shell 9, go up actuating mechanism and include telescopic cylinder 13, fixedly connected with goes up mounting panel 14 on the outer wall of sealed shell 9, the cylinder body of going up telescopic cylinder 13 articulates on going up mounting panel 14, go up telescopic cylinder 13 the piston rod tip with it is articulated to go up sealed lid 12. When the piston rod of the upper telescopic cylinder 13 extends out, the upper sealing cover 12 can be driven to rotate towards the feeding pipe 11 until the feeding pipe 11 is closed. When the piston rod of the upper telescopic cylinder 13 retracts, the upper sealing cover 12 can be driven to rotate towards the position far away from the feeding pipe 11 until the feeding pipe 11 is completely opened.

In this embodiment, the outer wall of the arc-shaped bottom section 3 is fixedly connected with a discharge pipe 15, and the discharge pipe 15 is communicated with the inside of the tank body 4. The discharging pipe 15 extends obliquely downwards, and a lower sealing cover 16 is hinged to a lower end pipe opening of the discharging pipe 15. Install the lower actuating mechanism that sealed lid 16 opened and closed inlet pipe 11 under the drive on the sealed shell 9, lower actuating mechanism includes lower telescopic cylinder 17, mounting panel 18 under the fixedly connected with on the outer wall of sealed shell 9, telescopic cylinder 17's cylinder body articulates down on the mounting panel 18, telescopic cylinder 17's piston rod end portion down with sealed lid 16 is articulated down. When the piston rod of the lower telescopic cylinder 17 extends out, the lower sealing cover 16 can be driven to rotate towards the feeding pipe 11 until the feeding pipe 11 is closed. When the piston rod of the lower telescopic cylinder 17 retracts, the lower sealing cover 16 can be driven to rotate away from the feeding pipe 11 until the feeding pipe 11 is completely opened.

In this embodiment, the feed pipe 11 and the discharge pipe 15 are located on both sides of the tank 4. An air outlet pipe 19 is welded on the outer wall of the feed pipe 11, the air outlet pipe 19 extends along the radial direction of the feed pipe 11, and the air outlet pipe 19 is communicated with the feed pipe 11. The air outlet pipe 19 is fixedly connected with a stop valve 20, and the stop valve 20 is used for controlling the on-off of the air outlet pipe 19.

In this embodiment, the lower extreme central point of arc bottom section 3 puts fixed mounting has driving motor 7, and driving motor 7's output shaft stretches into to jar 4 insidely to cooperate with jar 4 through the bearing. A sealing gasket is arranged between the driving motor 7 and the tank body 4 for enhancing the sealing property of the tank body 4. The stirring rod 8 is installed in the tank body 4 through a bearing, the stirring rod 8 is vertically arranged, and the lower end of the stirring rod 8 is fixedly connected with an output shaft of the driving motor 7 through a coupler. When the driving motor 7 is started, the stirring rod 8 can be driven to rotate.

When the steaming tank for producing the tryptone is used, the piston rod of the upper telescopic cylinder 13 contracts, the upper telescopic cylinder 13 drives the upper sealing cover to rotate, and the upper sealing cover opens the feeding pipe 11. The piston rod of the lower telescopic cylinder 17 extends out, and the lower telescopic cylinder 17 drives the lower sealing cover to close the discharge pipe 15. The pancreatic protein raw material and water are added into the tank body 4, the piston rod of the upper telescopic cylinder 13 extends out, the upper telescopic cylinder 13 drives the upper sealing cover to close the feeding pipe 11, and the stop valve 20 on the air outlet pipe 19 is closed. And starting a heating pipe 10 in the sealed shell 9 to heat the heat transfer oil in the sealed shell 9, wherein the heat transfer oil heats the pancreatic protein raw material and water in the steam pot, and the pancreatic protein raw material is cooked. In the process, the driving motor 7 drives the stirring rod 8 in the tank body 4 to rotate, and the stirring rod 8 stirs the water and the pancreatic protein raw material in the tank body 4. The upper sealing cover seals the feeding pipe 11, the lower sealing cover seals the discharging pipe 15, so that a closed cavity is formed in the tank body 4, hot steam is gathered in the tank body 4 to form high pressure, and the heating speed of the pancreatic protein raw material is improved; the stirring rod 8 stirs the pancreatic protein raw material, so that the heating uniformity of the pancreatic protein raw material is enhanced. After the cooking is closed, the outer wall exhaust tube is connected with the air outlet tube 19, the stop valve 20 is opened, the air in the tank body 4 is pumped out by the exhaust tube, then the lower sealing cover is opened by the lower telescopic cylinder 17, and the pancreatic protein raw material after the cooking in the tank body 4 flows out from the discharge tube 15. Compared with the prior art, the tryptone raw material is cooked by the steaming pot for producing the tryptone, the heating speed of the tryptone raw material is high, the heating uniformity is high, and steam generated in the cooking process cannot influence the surrounding environment.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (7)

1. The utility model provides a tryptone production is with evaporating jar, a serial communication port, which comprises a tank body, the sealed shell of fixedly connected with on the outer wall of the jar body, be equipped with the heating pipe in the sealed shell, be equipped with the conduction oil in the sealed shell, the upper end of the jar body is equipped with the inlet pipe, the lower extreme of the jar body is equipped with the discharging pipe, the inlet pipe upper end articulates there is sealed lid, the discharging pipe lower extreme articulates there is sealed lid down, the jar is equipped with the drive on the body last actuating mechanism and the drive that sealed lid opened and closed last actuating mechanism that sealed lid opened and closed down, the outer wall fixedly connected with of inlet pipe with the outlet duct of the inside intercommunication of inlet pipe, fixedly connected with stop valve on the outlet duct.

2. The tryptone production steam pot according to claim 1, wherein the pot body comprises a cylindrical barrel section, an arc-shaped cover section fixedly connected to the upper end of the cylindrical barrel section and an arc-shaped bottom section fixedly connected to the lower end of the cylindrical barrel section, the feeding pipe is fixedly connected to the outer wall of the arc-shaped cover section, and the discharging pipe is fixedly connected to the outer wall of the arc-shaped cover section.

3. The steaming pot for tryptone production according to claim 2, wherein the upper driving mechanism comprises an upper telescopic cylinder, an upper mounting plate is fixedly connected to the outer wall of the sealing shell, the cylinder body of the upper telescopic cylinder is hinged to the upper mounting plate, and the end of the piston rod of the upper telescopic cylinder is hinged to the upper sealing cover.

4. The steamer for tryptone production according to claim 2, wherein the lower driving mechanism comprises a lower telescopic cylinder, a lower mounting plate is fixedly connected to the outer wall of the sealing shell, the cylinder body of the lower telescopic cylinder is hinged to the lower mounting plate, and the end of the piston rod of the lower telescopic cylinder is hinged to the lower sealing cover.

5. The steaming pot for tryptone production according to claim 1, wherein the feeding pipe and the discharging pipe are located on both sides of the pot body.

6. The tryptone production steam pot according to claim 1, characterized in that a driving motor is fixedly connected to the middle position of the lower end of the pot body, a stirring rod is rotatably assembled in the pot body, and an output shaft of the driving motor is fixedly connected with the stirring rod.

7. The steaming tank for tryptone production according to claim 1, wherein a plurality of supporting legs are fixedly connected to the lower end of the tank body, and a supporting plate is fixedly connected to the lower ends of the supporting legs.

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