CN214694242U - Boiling pot for saccharide raw materials - Google Patents

Abstract

The application relates to a saccharide raw material decocting pot, which comprises a decocting mechanism and a condensing mechanism, wherein the decocting mechanism comprises a decocting and heating base and a decocting pot body, the condensing mechanism comprises a pot cover assembly, and the pot cover assembly comprises a decocting pot cover and an air guide pipe which is arranged on the decocting pot cover and is communicated with the interior of the decocting pot body; the condensing mechanism further comprises a condensing assembly, the condensing assembly comprises a condensing reflux pipe communicated with the air guide pipe, a condensing pipe unit located at one end, far away from the air guide pipe, of the condensing reflux pipe, a condensing cylinder located at one end, far away from the condensing reflux pipe, of the condensing pipe unit, the condensing reflux pipe is communicated with the condensing pipe unit, and one end, far away from the condensing reflux pipe, of the condensing pipe unit is communicated with the condensing cylinder. Raw material moisture in the boiling pot body enters the air duct, the condensation reflux pipe and the condenser pipe unit after evaporation, is liquefied by cooling and then flows into the condenser cylinder for collection, and the whole operation environment is prevented from being flooded by water vapor as far as possible, so that the operation environment is suitable for working. This application has the effect that promotes operational environment work suitability.

Description

Boiling pot for saccharide raw materials

Technical Field

The application relates to the technical field of saccharide raw material decoction, in particular to a saccharide raw material decoction pot.

Background

The saccharide raw material has high sugar content and rich nutrient substances, and is used for preparing foods such as cakes. The existing boiling of saccharide raw materials is divided into mechanical boiling and manual boiling, and the mechanical boiling is common in industrial production due to a large-volume boiling pot and an automatic stirring device, and has very high efficiency.

However, most of the existing mechanical boiling devices are boiling pots without pot covers, and a large amount of steam generated in the boiling process is filled in a room, so that the room is high in humidity and temperature, and the operating environment is severe.

In view of the above-mentioned related technologies, the inventor believes that the existing sugar raw material decocting pot has the defect of harsh operating environment.

SUMMERY OF THE UTILITY MODEL

In order to improve saccharide raw materials decocting pot operational environment, the application provides a saccharide raw materials decocting pot.

The application provides a system pot is endured to saccharide raw materials adopts following technical scheme:

a saccharide raw material decocting pot comprises a decocting mechanism and a condensing mechanism, wherein the decocting mechanism comprises a decocting and heating base and a decocting pot body placed on the decocting and heating base, the condensing mechanism comprises a pot cover assembly arranged on the decocting pot body, and the pot cover assembly comprises a decocting pot cover detachably connected with the decocting pot body and an air guide pipe arranged on the decocting pot cover and communicated with the interior of the decocting pot body; the condensing mechanism still includes the condensing assembly, the condensing assembly includes the condensing reflux pipe with the air duct intercommunication, is located condensing reflux pipe and keeps away from the condenser pipe unit of air duct one end, is located condensing reflux pipe unit and keeps away from the condenser cylinder of condensing reflux pipe one end, condensing reflux pipe and condenser pipe unit intercommunication, condensing reflux pipe unit keeps away from condensing reflux pipe one end and condenser cylinder intercommunication.

Through adopting above-mentioned technical scheme, raw materials moisture in the system pot body enters into air duct, condensation back flow, condenser pipe unit after evaporating, collects in cooling liquefaction then flowing to the condenser drum, has avoided vapor to waft whole operational environment as far as, makes the appropriate work of operational environment.

Optionally, the condenser pipe unit comprises a first condenser horizontal pipe communicated with the condenser return pipe and a second condenser horizontal pipe communicated with the condenser drum, a plurality of condenser vertical pipes are arranged between the first condenser pipe and the second condenser pipe, one end of each condenser vertical pipe is communicated with the first condenser horizontal pipe, and the other end of each condenser vertical pipe is communicated with the second condenser horizontal pipe. Through adopting above-mentioned technical scheme, a plurality of condensation standpipes are convenient for the vapor heat dissipation cooling into water.

Optionally, the condensing mechanism further comprises a cooling fan arranged on one side of the condensing pipe unit.

Through adopting above-mentioned technical scheme, cooling blower bloies to the condenser pipe unit, promotes the cooling effect.

Optionally, a water outlet tap is arranged on one side of the bottom of the condensation cylinder in the vertical direction, and the water outlet tap is communicated with the inside of the condensation cylinder.

Through adopting above-mentioned technical scheme, be convenient for discharge the water of collecting in the condensation cylinder through going out tap.

Optionally, a transparent plate is embedded in the side wall of the condensation cylinder.

Through adopting above-mentioned technical scheme, see through the quantity of the water of transparent plate in being convenient for observe the condensation cylinder, the operating personnel of being convenient for in time discharges.

Optionally, the condensing reflux pipe is communicated with the air guide pipe through a connecting pipe, and the connecting pipe is detachably connected with the air guide pipe and the condensing reflux pipe.

Through adopting above-mentioned technical scheme, the dismouting between air duct and the condensation back flow of being convenient for, and then the dismouting of the pot cover subassembly of being convenient for.

Optionally, the condensation mechanism still includes the stirring subassembly, the stirring subassembly is including locating this internal stirring apron with pot cover body lateral wall fixed connection of pot cover, the gas guide hole has been seted up on the stirring apron, the stirring apron intermediate position is equipped with the stirring montant, the stirring montant rotates with the stirring apron to be connected, the stirring montant is located the one end of stirring apron and pot cover body and is equipped with stirring fan blade.

Through adopting above-mentioned technical scheme, vapor rises and makes stirring fan blade rotate, and the vapor is discharged away with higher speed.

Optionally, one end of the stirring vertical rod, which is far away from the pot cover body, is provided with a stirring cross rod.

Through adopting above-mentioned technical scheme, stirring fan blade drives the stirring montant and rotates and then drive the stirring horizontal pole and rotate the stirring raw materials, promotes the system effect of stewing of raw materials.

In summary, the present application includes at least one of the following beneficial technical effects:

1. raw material moisture in the boiling pot body enters the air duct, the condensation reflux pipe and the condenser pipe unit after evaporation, is liquefied by cooling and then flows into the condenser cylinder for collection, and the whole operation environment is prevented from being flooded by water vapor as far as possible, so that the operation environment is suitable for working.

Drawings

FIG. 1 is a schematic view of the overall structure of a sugar raw material decocting pot in the embodiment of the present application.

FIG. 2 is a schematic diagram of an explosion structure of a sugar raw material decocting pot in the embodiment of the present application.

Description of reference numerals: 1. a boiling mechanism; 11. boiling and heating the base; 12. boiling the pot body; 2. a condensing mechanism; 21. a lid assembly; 211. boiling the pot cover; 212. an air duct; 22. a condensing assembly; 221. a condensing reflux pipe; 222. a condenser tube unit; 2221. a first cross condenser tube; 2222. a second cross condenser tube; 2223. a condensation standpipe; 223. a condensing cylinder; 2231. a transparent plate; 224. a water outlet tap; 225. a cooling fan; 226. a connecting pipe; 23. a stirring assembly; 231. a stirring cover plate; 2311. an air vent; 232. stirring the vertical rod; 233. a stirring fan blade; 234. a stirring rail.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses a boiling pot for saccharide raw materials.

Referring to fig. 1 and 2, a saccharide raw materials system pot includes system mechanism 1 and condensing unit 2 for boiling, and condensing unit 2 is used for retrieving the vapor of system mechanism 1 to make the vapor condensation collect, avoid the vapor to diffuse to operating environment as far as possible in, promote operating environment's suitability.

The stewing mechanism 1 comprises a stewing and heating base 11 and a stewing pot body 12 arranged on the stewing and heating base 11, and the stewing and heating base 11 heats the stewing pot body 12 to stew the raw materials.

In order to collect the water vapor generated by the decocting mechanism 1, the condensing mechanism 2 comprises a pot cover component 21 and a condensing component 22.

The pot cover assembly 21 comprises a decocting pot cover 211 and an air guide pipe 212, the decocting pot cover 211 is in threaded connection with the decocting pot body 12, and the air guide pipe 212 is fixed on the decocting pot cover 211 in a welding mode and is communicated with the decocting pot cover 211.

The condensing assembly 22 includes a condensing return pipe 221, a condensing pipe unit 222, a condensing drum 223, a water outlet tap 224, a cooling fan 225, and a connection pipe 226. The condensing return pipe 221 is communicated with the air guide pipe 212 through a connecting pipe 226, one end of the connecting pipe 226 is in threaded connection with the condensing return pipe 221, and the other end of the connecting pipe 226 is connected with the air guide pipe 212 through threads with opposite screwing directions, so that the air guide pipe 212 and the condensing pipe are convenient to connect and disconnect.

The condenser unit 222 is located at one end of the condenser/return pipe 221 away from the connection pipe 226, and the condenser unit 222 includes a first cross condenser pipe 2221, a second cross condenser pipe 2222, and a vertical condenser pipe 2223; the first horizontal condenser tube 2221 and the second horizontal condenser tube 2222 are both horizontally disposed and parallel to each other, the first horizontal condenser tube 2221 is fixedly connected and communicated with the condenser return tube 221 by welding, and the second horizontal condenser tube 2222 is fixedly connected and communicated with the condenser barrel 223 by a tube. The condensation standpipe 2223 is equipped with a plurality of and evenly is located between first horizontal condensation pipe 2221 and the horizontal second condensation pipe 2222, condensation standpipe 2223 one end with first horizontal condensation pipe 2221 welded fastening and intercommunication, the other end with horizontal second condensation pipe 2222 welded fastening and intercommunication, the setting of horizontal first horizontal condensation pipe 2221 of perpendicular to of vertical condensation standpipe 2223 and horizontal second condensation pipe 2222.

The water outlet faucet 224 is fixed on the wall of the condensation cylinder 223 in a threaded manner, a groove is formed in the wall of the condensation cylinder 223, and the transparent plate 2231 is embedded in the groove, so that the water level in the condensation cylinder 223 can be observed conveniently. The cooling fan 225 is fixed to the condensation drum 223 and faces the condensation duct unit 222, accelerating cooling of the condensation duct unit 222.

The raw materials in the boiler body 12 are boiled to generate water vapor, the water vapor enters the condensation return pipe 221 through the air duct 212, then enters the first horizontal condensation pipe 2221 and the condensation pipe of the condensation pipe unit 222 to be cooled into liquid, and then enters the condensation cylinder 223 through the second horizontal condensation pipe 2222, and the condensation cylinder 223 can be discharged through the water outlet faucet 224 after being fully collected. The water vapor is collected, and the suitability of the operating environment is improved.

In order to improve the decocting effect, the condensing mechanism 2 further comprises a stirring assembly 23, the stirring assembly 23 comprises a stirring cover plate 231, a stirring vertical rod 232, stirring blades 233 and a stirring cross rod 234, the stirring cover plate 231 is welded and fixed on the inner side wall of the decocting pot cover 211 in a whole circle, and the stirring cover plate 231 is provided with a plurality of air guide holes 2311; stirring montant 232 sets up in the middle of stirring apron 231 and rotates with stirring apron 231 through the bearing to be connected, and stirring montant 232 is vertical setting. The stirring fan blades 233 are positioned at one end of the vertical stirring rod 232 close to the air duct 212, and the stirring cross rod 234 is provided with a plurality of staggered vertical welding and a section of the vertical stirring rod 232 positioned in the decocting pot body 12. Evaporate vapor in the system pot body 12 of stewing passes through gas guide 2311 and enters into the pot cover, then vapor drives stirring fan blade 233 and rotates, and stirring fan blade 233 produces the backward flow of air current acceleration vapor, and stirring fan blade 233 drives stirring montant 232 and rotates simultaneously, and stirring montant 232 drives stirring horizontal pole 234 and rotates, stirs the raw materials, promotes system effect of stewing.

The application principle of a sugar raw materials system pot of embodiment of this application does:

in the first step, the water vapor is collected, cooled and liquefied, the raw material in the boiler body 12 is boiled to generate water vapor, the water vapor enters the condensation return pipe 221 through the air duct 212, then enters the first horizontal condensation pipe 2221 and the condensation pipe of the condensation pipe unit 222 to be cooled into liquid, and then enters the condensation cylinder 223 through the second horizontal condensation pipe 2222, and the condensation cylinder 223 can be discharged through the water outlet faucet 224 after being collected. The water vapor is collected, and the suitability of the operating environment is improved.

Second step, the stirring raw materials, boil in the pot body 12 in the vapor enters into the pot cover through gas guide 2311, then vapor drives stirring fan blade 233 and rotates, stirring fan blade 233 produces the backward flow of vapor with higher speed of air current, and stirring fan blade 233 drives stirring montant 232 and rotates simultaneously, and stirring montant 232 drives stirring horizontal pole 234 and rotates, stirs the raw materials, promotes system effect of stewing.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A pot for decocting saccharide raw materials is characterized in that: the device comprises a decocting mechanism (1) and a condensing mechanism (2), wherein the decocting mechanism (1) comprises a decocting heating base (11) and a decocting pot body (12) placed on the decocting heating base (11), the condensing mechanism (2) comprises a pot cover assembly (21) arranged on the decocting pot body (12), and the pot cover assembly (21) comprises a decocting pot cover (211) detachably connected with the decocting pot body (12) and an air guide pipe (212) arranged on the decocting pot cover (211) and communicated with the interior of the decocting pot body (12); the condensing mechanism (2) further comprises a condensing assembly (22), the condensing assembly (22) comprises a condensing reflux pipe (221) communicated with the air guide pipe (212), a condensing pipe unit (222) located at one end, far away from the air guide pipe (212), of the condensing reflux pipe (221), and a condensing cylinder (223) located at one end, far away from the condensing reflux pipe (221), of the condensing reflux pipe unit (222), the condensing reflux pipe (221) is communicated with the condensing pipe unit (222), and one end, far away from the condensing reflux pipe (221), of the condensing pipe unit (222) is communicated with the condensing cylinder (223).

2. The pan as claimed in claim 1, wherein: the condenser pipe unit (222) comprises a first horizontal condenser pipe (2221) communicated with a condenser return pipe (221) and a second horizontal condenser pipe (2222) communicated with a condenser barrel (223), a plurality of vertical condenser pipes (2223) are arranged between the first horizontal condenser pipe (2221) and the second horizontal condenser pipe (2222), one end of each vertical condenser pipe (2223) is communicated with the first horizontal condenser pipe (2221), and the other end of each vertical condenser pipe (2223) is communicated with the second horizontal condenser pipe (2222).

3. The pan for decocting a saccharide raw material as claimed in claim 2, wherein: the condensation mechanism (2) further comprises a cooling fan (225) arranged on one side of the condensation pipe unit (222).

4. A saccharide raw material decocting pot as claimed in claim 3, characterized in that: and a water outlet faucet (224) is arranged on one side of the bottom of the condensation cylinder (223) in the vertical direction, and the water outlet faucet (224) is communicated with the inside of the condensation cylinder (223).

5. The pan as claimed in claim 4, wherein: and a transparent plate (2231) is embedded in the side wall of the condensation cylinder (223).

6. The pan as claimed in claim 1, wherein: the condensation return pipe (221) is communicated with the air guide pipe (212) through a connecting pipe (226), and the connecting pipe (226) is detachably connected with the air guide pipe (212) and the condensation return pipe (221).

7. The pan as claimed in claim 1, wherein: condensation mechanism (2) still include stirring subassembly (23), stirring subassembly (23) including locate system pot cover (211) in with system pot cover (211) lateral wall fixed connection's stirring apron (231), gas guide hole (2311) have been seted up on stirring apron (231), stirring apron (231) intermediate position is equipped with stirring montant (232), stirring montant (232) are connected with stirring apron (231) rotation, stirring montant (232) are located stirring apron (231) and are equipped with stirring fan blade (233) with the one end of pot cover body.

8. The pan as claimed in claim 7, wherein: and a stirring cross rod (234) is arranged at one end of the stirring vertical rod (232) far away from the pot cover body.

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