CN212937885U - Steam distribution system for jelly cooking materials - Google Patents

Abstract

The utility model discloses a steam distribution system for jelly boiling materials, a heating component is arranged on one side of a heating boiler, a gas pipe is arranged on the top end of the heating boiler, one side of the gas pipe is connected with a gas inlet pipe, a heating vessel is arranged in the heating tank, a stirring motor is arranged in the middle of the top end of the heating tank through a bolt, the output end of the stirring motor is connected with a stirring rod, the stirring rod is embedded and arranged on the inner side of the heating vessel, a cleaning ring is arranged on the inner side of the heating tank, the jelly in the heating vessel, thereby the jelly is heated evenly, and the jelly in the middle of the heating dish is heated through the heat conduction pipe, thereby further accelerating the cooking of the jelly, cleaning the inside of the heating tank by the cleaning ring, avoiding the reduction of the heat conduction effect caused by the accumulation of dirt, meanwhile, steam is limited, so that the steam slowly flows out, the gas heat dissipation time is prolonged, and the heating effect is guaranteed.

Description

Steam distribution system for jelly cooking materials

Technical Field

The utility model relates to a jelly preparation technical field specifically is jelly boils material and uses steam ration system.

Background

The jelly is prepared by adding various artificially synthesized essences, coloring agents, sweetening agents and sour agents into thickening agents, is a western dessert, is in a semisolid state, is prepared by adding water, sugar and fruit juice into edible gelatin, is also called jelly, has glittering and translucent appearance, bright color and soft and smooth mouthfeel, and also contains pudding and the like in the jelly.

However, in the current market, when jelly is cooked, the time for cooking the jelly in the middle of the tank is long, so that when the jelly is cooked, a large amount of resources are wasted, the cooking efficiency is reduced, steam adjustment cannot be effectively performed according to different ingredients of the jelly, and different types of jellies cannot be effectively produced at the same time.

SUMMERY OF THE UTILITY MODEL

The utility model provides a jelly boils material and uses steam ration system and control method, can effectively solve to be in jar middle jelly when the body when proposing that the jelly is cooked among the above-mentioned background art, need longer time for when cooking, reduced the efficiency of cooking when having wasted a large amount of resources, and can't effectively carry out steam control according to the difference of jelly batching, make the problem of producing to the jelly of different grade type when can't be effectual.

In order to achieve the above object, the utility model provides a following technical scheme: the steam distribution system for the jelly cooking materials comprises a heat supply boiler, wherein a heating assembly is arranged on one side of the heat supply boiler;

the heating assembly comprises a gas pipe, a gas inlet pipe, a heating tank, a first limiting valve, a gas flowmeter, a heating vessel, a stirring motor, a stirring rod, stirring fan blades, a gas heat conduction pipe, a feed pipe, a sealing cover plate, a cleaning ring, a screw rod, a cleaning motor, a guide rod, a cleaning pipe and a gas outlet hole;

the heating boiler is characterized in that a gas pipe penetrates through the middle of the top end of the heating boiler, one side of the gas pipe is connected with a plurality of gas inlet pipes through adapters, one ends of the gas pipe and the gas inlet pipes penetrate through one side of the heating tank, first limiting valves are embedded and mounted on one sides of the gas pipe and the gas inlet pipes, and gas flow meters are embedded and mounted on positions, close to the positions of the first limiting valves, of one sides of the gas pipe and the gas inlet pipes;

heating tank inside has placed the heating ware, agitator motor is installed through the bolt at heating tank deck end middle part, the agitator motor output is connected with the puddler, the puddler embedding is installed in heating ware inboard, the welding of puddler one side equidistance has a plurality of stirring fan blade, heating ware one side equidistance is run through and is installed a plurality of gas heat conduction pipes, heating tank deck end one side is run through and is installed the inlet pipe, the inlet pipe embedding is installed in heating ware inboard, the inlet pipe top articulates there is sealed apron.

Preferably, the inner diameter of the gas transmission pipe is equal to that of the gas inlet pipe, and the outer diameter of the heating vessel is smaller than that of the heating tank.

Preferably, a cooling assembly is installed on one side of the heating tank;

the cooling assembly comprises a discharge pipe, a cooling tank, an extraction pump, a placing tank, a heat conducting strip, a cooling pipe, a thermometer, a water inlet pipe, a booster water pump, a water outlet pipe, an output pipe and a second limiting valve;

it is three heating tank top all runs through and installs the discharging pipe, discharging pipe one end runs through to be installed in cooling tank top one side, discharging pipe one side has through the switching and installs the extraction pump, the cooling tank inboard is placed and is placed the jar, it has a plurality of heat conduction strips to place jar outside equidistance welding, it runs through and installs a plurality of cooling tubes to place jar one side equidistance, the cooling tank top runs through and installs the thermometer, cooling tank one side bottom runs through and installs the inlet tube, booster water pump is installed through the adapter to inlet tube one side, cooling tube one side top runs through and installs the outlet pipe, it runs through and installs the output tube to place the tank bottom end, the embedding of output tube one side is installed the second limiting valve, booster water pump input and.

Preferably, the outer diameter of the placing tank is smaller than the inner diameter of the cooling tank, and the inner diameter of the water inlet pipe is equal to that of the water outlet pipe.

Preferably, one end of the heating tank is provided with a collecting assembly;

the collecting assembly comprises a condensation return pipe, a collecting box, a water supply pipe, a water supply pump, a water supply pipe, a third limiting valve, a drain pipe, a water drain pipe, a fourth limiting valve, a filter screen and an opening and closing door;

three heating tank bottoms run through and install the condensate return pipe, condensate return pipe one end runs through and installs in collecting box one end, the collection box is kept away from the one end of condensate return pipe and runs through and installs the flow pipe, flow pipe one side is connected with the delivery pump through the adapter, heat supply boiler top one side runs through and installs the filler pipe, the flow pipe embedding is installed in the filler pipe inboard, filler pipe one side embedding is installed and is equipped with the third limiting valve, outlet pipe one end is connected with drain pipe one end through the adapter, drain pipe one end runs through and installs in collecting box one side, collecting box one side runs through and installs the bleeder line, drain pipe one side embedding is installed and is equipped with the fourth limiting valve, the inboard embedding of collecting box is installed and is equipped with the filter screen, flow pipe one side is connected with the cleaning tube through, and the input end of the water feeding pump is electrically connected with the output end of the external power supply.

Preferably, the outer diameter of the water supply pipe is equal to the inner diameter of the water feeding pipe, and the inner diameter of the water discharge pipe is larger than that of the water discharge pipe.

Preferably, exhaust pipes are installed at the top ends of the three heating tanks in a penetrating mode, one end of each exhaust pipe is connected with a gas return pipe through an adapter, one end of each gas return pipe is installed on one side of the heat supply boiler in a penetrating mode, and a fifth limiting valve is installed on one side of each exhaust pipe in an embedded mode;

the heat preservation cotton has all been cup jointed in the gas-supply pipe and the blast pipe outside, the heat preservation is installed in the inboard embedding of heating jar.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model has the advantages of being scientific and reasonable in structure, convenience safe in utilization:

1. set up heating element, stir through the jelly inside the heating dish, thereby make it be heated evenly, and make the jelly that is in the heating dish middle part be heated through the heat pipe, thereby jelly's cooking has further been accelerated, cooperation through flowmeter and restriction valve, thereby can carry out steam flow rate according to the jelly's of preparation and adjust, clean heating tank inside through clean ring, thereby avoid piling up because of the dirt and lead to the heat conduction effect to reduce, carry out the current-limiting to vapour simultaneously, make vapour slowly flow out, increase gaseous radiating time, thereby heating effect has been guaranteed.

2. Set up cooling module, through heat conduction strip and cooling tube with higher speed place the jelly's of jar inside heat dissipation, the cooling tube runs through simultaneously and places and is placing jar inside to make the jelly of placing jar inside can dispel the heat evenly when the heat dissipation, dispel the heat with higher speed through circulation rivers simultaneously, and through thermometer monitoring temperature, thereby avoid the jelly condition of condensing that the heat dissipation is excessive and lead to appearing when accelerating the radiating of jelly.

3. The collection assembly is arranged, condensed water of steam and water used for heat dissipation are collected in the collection box and are sent back to the boiler again through the water feeding pump to be heated, the collected water is cleaned for the heating tank, impurities of the collected water are filtered, the water is guaranteed to flow into the boiler to be clean, water is recycled, and waste of water resources is avoided.

4. Through blast pipe, gas reflux pipe, heat preservation cotton and heat preservation, guaranteed when cooking the jelly, the stability of jar internal portion's atmospheric pressure, will have thermal gas to flow back again in the boiler through gas reflux simultaneously to realize the reuse of the energy, simultaneously through heat preservation cotton and heat preservation, reduced the thermal scattering and disappearing of gas when carrying, thereby guaranteed the stability of heat supply.

5. When carrying out the proportion to vapour and supplying with, in vapour carries the inlet tube through the gas-supply pipe, in the inlet tube, adjusts first limiting valve opening size to change the gas velocity of flow of vapour, when gaseous entering jar internal, observe the gas velocity of flow through the flowmeter, thereby detect gaseous flow, make when cooking the jelly of difference, carry out the proportion regulation to vapour.

To sum up, through heating element, cooling element and collection subassembly, realize the rapid heating and the cooling to jelly to collect condensate water and cooling water, thereby the cyclic utilization of the resource that realizes makes when cooking jelly, can be fast effectual control it, through mutually supporting the subassembly, makes when needing to carry out jelly production, can be fast produce multiple jelly.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic structural view of the heating assembly of the present invention;

FIG. 3 is a schematic structural view of a heating tank of the present invention;

FIG. 4 is a schematic view of the cleaning ring of the present invention;

FIG. 5 is a schematic view of the cooling tank of the present invention;

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

fig. 7 is a schematic structural view of the collecting assembly of the present invention;

fig. 8 is a schematic structural view of the filter screen of the present invention;

FIG. 9 is a schematic structural view of the heat-insulating cotton of the present invention;

FIG. 10 is a schematic structural view of the heat insulating layer of the present invention;

fig. 11 is a schematic diagram of the steps of the method of the present invention;

reference numbers in the figures: 1. a heat supply boiler;

2. a heating assembly; 201. a gas delivery pipe; 202. an air inlet pipe; 203. a heating tank; 204. a first limiting valve; 205. a gas flow meter; 206. heating the dish; 207. a stirring motor; 208. a stirring rod; 209. a stirring fan blade; 210. a gas heat conduction pipe; 211. a feed pipe; 212. sealing the cover plate; 213. cleaning the ring; 214. a screw rod; 215. cleaning the motor; 216. a guide bar; 217. cleaning the tube; 218. an air outlet;

3. a cooling assembly; 301. a discharge pipe; 302. a cooling tank; 303. a pump; 304. placing the tank; 305. a heat conducting strip; 306. a cooling tube; 307. a thermometer; 308. a water inlet pipe; 309. a booster water pump; 310. a water outlet pipe; 311. an output pipe; 312. a second limiting valve;

4. a collection assembly; 401. a condensing reflux pipe; 402. a collection box; 403. a water supply pipe; 404. a water pump; 405. a water feeding pipe; 406. a third limiting valve; 407. a drain pipe; 408. a water discharge pipe; 409. a fourth limiting valve; 410. a filter screen; 411. opening and closing the door;

5. an exhaust pipe; 6. a gas return pipe; 7. a fifth limiting valve; 8. heat preservation cotton; 9. and (7) an insulating layer.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Example (b): as shown in fig. 1-10, the utility model provides a technical scheme, a steam distribution system for jelly boiling comprises a heat supply boiler 1, a heating component 2 is arranged on one side of the heat supply boiler 1;

the heating assembly 2 comprises a gas conveying pipe 201, a gas inlet pipe 202, a heating tank 203, a first limiting valve 204, a gas flowmeter 205, a heating dish 206, a stirring motor 207, a stirring rod 208, stirring blades 209, a gas heat pipe 210, a feeding pipe 211, a sealing cover plate 212, a cleaning ring 213, a screw rod 214, a cleaning motor 215, a guide rod 216, a cleaning pipe 217 and a gas outlet 218;

an air pipe 201 penetrates through the middle of the top end of the heat supply boiler 1, one side of the air pipe 201 is connected with a plurality of air inlet pipes 202 through adapters, one ends of the air pipe 201 and the air inlet pipes 202 penetrate through one side of the heating tank 203, a first limiting valve 204 is embedded and installed on one sides of the air pipe 201 and the air inlet pipes 202, and a gas flowmeter 205 is embedded and installed at a position, close to the first limiting valve 204, on one sides of the air pipe 201 and the air inlet pipes 202;

a heating vessel 206 is placed in the heating tank 203, the inner diameter of the gas pipe 201 is equal to that of the gas inlet pipe 202, the outer diameter of the heating vessel 206 is smaller than that of the heating tank 203, the uniformity of heating jelly is guaranteed, a stirring motor 207 is installed in the middle of the top end of the heating tank 203 through bolts, the output end of the stirring motor 207 is connected with a stirring rod 208, the stirring rod 208 is embedded and installed inside the heating vessel 206, a plurality of stirring blades 209 are welded on one side of the stirring rod 208 at equal intervals, a plurality of gas heat conduction pipes 210 are installed on one side of the heating vessel 206 at equal intervals in a penetrating manner, a feeding pipe 211 is installed on one side of the top end of the heating tank 203;

heating jar 203 inboard slidable mounting has clean ring 213, clean ring 213 top is run through and is installed lead screw 214, lead screw 214 top is installed in clean motor 215 output, clean motor 215 passes through the screw rod and installs on heating jar 203 top, clean ring 213 top equidistance is scraped off and is installed a plurality of guide bar 216, lead screw 214 and guide bar 216 top are all run through and are installed in heating jar 203 top, heating jar 203 top one side is run through and is installed clean pipe 217, a plurality of venthole 218 has been seted up to clean ring 213 top equidistance, agitator motor 207 and clean motor 215 input all with external power source output electric connection.

A cooling component 3 is arranged on one side of the heating tank 203;

the cooling assembly 3 comprises a discharge pipe 301, a cooling tank 302, an extraction pump 303, a placing tank 304, a heat conducting strip 305, a cooling pipe 306, a thermometer 307, a water inlet pipe 308, a booster water pump 309, a water outlet pipe 310, an output pipe 311 and a second limiting valve 312;

the top ends of the three heating tanks 203 are all provided with a discharge pipe 301 in a penetrating way, one end of the discharge pipe 301 is arranged on one side of the top end of the cooling tank 302 in a penetrating way, one side of the discharge pipe 301 is provided with an extraction pump 303 through a switching way, the inner side of the cooling tank 302 is provided with a placing tank 304, the outer side of the placing tank 304 is welded with a plurality of heat conducting strips 305 in an equidistance way, one side of the placing tank 304 is provided with a plurality of cooling pipes 306 in an equidistance way, the top end of the cooling tank 302 is provided with a thermometer 307 in a penetrating way, the bottom end of one side of the cooling tank 302 is provided with a water inlet pipe 308 in a penetrating way, one side of the water inlet pipe 308 is provided with a booster water pump 309 through a switching way, the top end of one side of the, the input end of the booster pump 309 is electrically connected with the output end of the external power supply.

One end of the heating tank 203 is provided with a collecting component 4;

the collecting component 4 comprises a condensation return pipe 401, a collecting box 402, a water supply pipe 403, a water supply pump 404, a water supply pipe 405, a third limiting valve 406, a water discharge pipe 407, a water discharge pipe 408, a fourth limiting valve 409, a filter screen 410 and an opening and closing door 411;

the bottom ends of the three heating tanks 203 are provided with a condensate return pipe 401 in a penetrating way, one end of the condensate return pipe 401 is arranged at one end of a collecting box 402 in a penetrating way, one end of the collecting box 402 far away from the condensate return pipe 401 is provided with a water feeding pipe 403 in a penetrating way, one side of the water feeding pipe 403 is connected with a water feeding pump 404 through an adapter, one side of the top end of the heating boiler 1 is provided with a water feeding pipe 405 in a penetrating way, the water feeding pipe 403 is arranged at the inner side of the water feeding pipe 405 in an embedded way, one side of the water feeding pipe 405 is provided with a third limiting valve 406 in an embedded way, one end of a water outlet pipe 310 is connected with one end of a water outlet pipe 407 through an adapter, the outer diameter of the water feeding pipe 403 is equal to the inner diameter of the water feeding pipe 405, the inner diameter of the, one side of the water supply pipe 403 is connected with the cleaning pipe 217 through an adapter, one side of the collecting box 402 is hinged with an opening and closing door 411, and the input end of the water supply pump 404 is electrically connected with the output end of an external power supply.

The top ends of the three heating tanks 203 are respectively provided with an exhaust pipe 5 in a penetrating way, one end of each exhaust pipe 5 is connected with a gas return pipe 6 through an adapter, one end of each gas return pipe 6 is arranged on one side of the heat supply boiler 1 in a penetrating way, and one side of each exhaust pipe 5 is embedded with a fifth limiting valve 7;

the outside of gas-supply pipe 201 and blast pipe 5 all has cup jointed the heat preservation cotton 8, and the inboard embedding of heating jar 203 is installed heat preservation 9.

As shown in fig. 11, the steam distribution control method for jelly cooking material includes the following steps:

s1, steam entering: transporting the vapor through a pipeline;

s2, intake control: opening a limiting valve to enable the gas to flow into the tank body after passing through a flowmeter;

s3, condensation and discharge: and discharging the cooled water and gas through a pipeline.

According to the technical characteristics, in the step S2, the filling of the gas in the tank body is changed by changing the size of the inlet of the limiting valve so as to change the filling speed of the gas in the tank body, so that the gas flow rate can be conveniently adjusted according to the requirement when the gas is supplied to the jelly cooking tank with different steam supplies.

According to the technical characteristics, in the step S3, condensed water and cooled gas are discharged, so that the heat consumption when subsequent gas enters is avoided, the stability of the temperature inside the tank body is ensured, and the temperature is at a stable value when the jelly is heated.

The utility model discloses a theory of operation and use flow: before the jelly needs to be cooked, the sealing cover plate 212 is opened, the jelly raw materials are placed into the heating dish 206 through the feeding pipe 211, and after the raw materials are placed, the sealing cover plate 212 is closed, and meanwhile, the heat supply boiler 1 is used for heating;

after the raw materials are put in, the first limiting valve 204 is rotated, the flow rate condition of the gas flowmeter 205 is observed during rotation, the flow rate is adjusted according to the condition of the manufactured jelly, after the flow rate is adjusted to the required flow rate, the first limiting valve 204 is stopped to be continuously rotated, steam enters the air inlet pipe 202 through the air conveying pipe 201 and flows into the heating tank 203 through the air inlet pipe 202, in the heating tank 203, the gas moves from bottom to top and enters the gas heat conduction pipe 210, so that the jelly in the heating dish 206 is heated, when the steam heats the jelly, the stirring motor 207 is started, the stirring rod 208 is driven to rotate by the stirring motor 207, the stirring rod 208 drives the stirring fan blades 209 to rotate, under the rotation of the stirring fan blades 209, the jelly in the heating dish 206 is driven to rotate, so that the raw materials of the jelly are uniformly mixed, and the jelly in the heating dish 206 is uniformly heated, thereby accelerating the cooking and heating of the jelly and accelerating the production of the jelly;

in the process of making the jelly, water vapor is condensed into water drops through heat dissipation and falls into the bottom of the heating tank 203, and finally flows into the condensation return pipe 401 and flows into the collection box 402 along the condensation return pipe 401, so that the collection of condensed water is realized, the condensed water is prevented from being remained in the tank body, the influence of the condensed water on the temperature is avoided when the jelly is cooked, meanwhile, part of gas which does not finish heat dissipation flows into the exhaust pipe 5 along the gas return pipe 6 and finally flows back into the heat supply boiler 1, and when the gas flows back, the gas is prevented from entering other tank bodies through the one-way control of the fifth limiting valve 7;

after the jelly is manufactured, a booster water pump 309 is started, water is conveyed into a cooling tank 302 along a water inlet pipe 308 through the booster water pump 309, the cooling tank 302 is gradually filled with the water from bottom to top and flows into a cooling pipe 306 when the water flows, after the cooling tank 302 is filled with the water, an extraction pump 303 is started, the jelly flows into a placing tank 304 along a discharge pipe 301 under the action of the extraction pump 303, the jelly is cooled by water and gradually reduces in temperature in the placing tank 304, a worker can detect the real-time temperature of the jelly in the placing tank 304 in real time through a thermometer 307, the situation that the jelly is condensed due to too low cooling temperature is avoided, and a second limiting valve 312 is opened after the jelly is cooled, so that the jelly is discharged to the next link from a discharge pipe 311;

when the jelly is cooled by the water body, the water body enters through the water inlet pipe 308, is discharged through the water outlet pipe 310 and flows into the collection box 402 through the water discharge pipe 407, when water needs to be added to the heat supply boiler 1, the water supply pump 404 is started, the water body flows into the water adding pipe 405 through the water supply pipe 403 under the action of the water supply pump 404, the third limiting valve 406 is opened, the water body flows into the heat supply boiler 1, so that the water adding to the interior of the boiler is completed, the third limiting valve 406 is closed after the water adding is completed, and when the water amount in the collection box 402 is too much stored, the fourth limiting valve 409 is opened, so that the water body is discharged through the water discharge pipe 408;

the pipeline and the tank body are insulated by the insulation cotton 8 and the insulation layer 9, so that the temperature property of heat supply when the jelly is cooked is ensured, and the heat loss is avoided;

when the heating tank 203 needs to be cleaned, the cleaning motor 215 is started, the cleaning motor 215 drives the screw rod 214 to rotate, the screw rod 214 drives the cleaning ring 213 to reciprocate, the water supply pump 404 is started at the same time, the water supply pump 404 supplies water to the interior of the heating tank 203, so that the cleaning speed of the heating tank is accelerated, the cleaned and flushed water flows into the collecting box 402 along the condensation return pipe 401 again, impurities are intercepted by the filter screen 410 in the collecting box 402, the cleanness of the recycled water is guaranteed, and a worker can clean the filter screen 410 and the collecting box 402 by opening the opening and closing door 411, so that the water storage capacity of the heating tank is guaranteed.

When carrying out proportion supply to vapour, vapour passes through gas-supply pipe 201 and carries in the intake pipe 202, adjusts first restriction valve 204 opening size to change the gas flow rate of vapour, when gaseous entering jar internal, observe the gas flow rate through the flowmeter, thereby detect gaseous flow, make when cooking different jellies, carry out proportion control to vapour.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. Jelly boils material and uses steam ration system, including heat supply boiler (1), its characterized in that: a heating assembly (2) is arranged on one side of the heat supply boiler (1);

the heating assembly (2) comprises a gas conveying pipe (201), a gas inlet pipe (202), a heating tank (203), a first limiting valve (204), a gas flowmeter (205), a heating dish (206), a stirring motor (207), a stirring rod (208), stirring blades (209), a gas heat conduction pipe (210), a feed pipe (211), a sealing cover plate (212), a cleaning ring (213), a screw rod (214), a cleaning motor (215), a guide rod (216), a cleaning pipe (217) and a gas outlet hole (218);

the heating boiler is characterized in that a gas pipe (201) is installed in the middle of the top end of the heating boiler (1) in a penetrating mode, one side of the gas pipe (201) is connected with a plurality of gas inlet pipes (202) through adapters, one ends of the gas pipe (201) and the gas inlet pipes (202) are installed in one side of a heating tank (203) in a penetrating mode, first limiting valves (204) are installed on one sides of the gas pipe (201) and the gas inlet pipes (202) in an embedded mode, and gas flow meters (205) are installed on one sides of the gas pipe (201) and the gas inlet pipes (202) close to the positions of the;

heating jar (203) inside has placed heating ware (206), agitator motor (207) are installed through the bolt in heating jar (203) top middle part, agitator motor (207) output is connected with puddler (208), puddler (208) embedding is installed in heating ware (206) inboardly, the welding of puddler (208) one side equidistance has a plurality of stirring fan blade (209), heating ware (206) one side equidistance is run through and is installed a plurality of gas heat pipe (210), heating jar (203) top one side is run through and is installed inlet pipe (211), inlet pipe (211) embedding is installed in heating ware (206) inboardly, inlet pipe (211) top articulates there is sealed apron (212).

2. The steam distribution system for jelly cooking material as claimed in claim 1, wherein the inner diameter of the gas pipe (201) is equal to the inner diameter of the gas pipe (202), and the outer diameter of the heating dish (206) is smaller than the inner diameter of the heating tank (203).

3. Steam dispensing system for jelly cooking according to claim 1, characterized in that the heating tank (203) is fitted on one side with a cooling assembly (3);

the cooling assembly (3) comprises a discharge pipe (301), a cooling tank (302), an extraction pump (303), a placing tank (304), a heat conducting strip (305), a cooling pipe (306), a thermometer (307), a water inlet pipe (308), a booster water pump (309), a water outlet pipe (310), an output pipe (311) and a second limiting valve (312);

three heating tank (203) top all runs through and installs discharging pipe (301), discharging pipe (301) one end runs through and installs in cooling tank (302) top one side, discharging pipe (301) one side has installed extraction pump (303) through the switching, cooling tank (302) inboard has been placed and has been placed jar (304), it has a plurality of heat conduction strips (305) to place jar (304) outside equidistance welding, it runs through and installs a plurality of cooling tubes (306) to place jar (304) one side equidistance, cooling tank (302) top runs through and installs thermometer (307), inlet tube (308) is installed to cooling tank (302) one side bottom running through, booster pump (309) is installed through the switching to inlet tube (308) one side, cooling tank (302) one side top runs through and installs outlet pipe (310), it runs through and installs output tube (311) to place jar (304) bottom, and a second limiting valve (312) is embedded into one side of the output pipe (311), and the input end of the booster water pump (309) is electrically connected with the output end of the external power supply.

4. The steam distribution system for jelly cooking material as claimed in claim 3, wherein the outside diameter of the placing tank (304) is smaller than the inside diameter of the cooling tank (302), and the inside diameter of the inlet pipe (308) and the inside diameter of the outlet pipe (310) are equal.

5. A steam distribution system for jelly cookers according to claim 3, characterized in that the heating tank (203) is fitted at one end with a collection assembly (4);

the collecting assembly (4) comprises a condensation return pipe (401), a collecting box (402), a water supply pipe (403), a water supply pump (404), a water supply pipe (405), a third limiting valve (406), a water discharge pipe (407), a water discharge pipe (408), a fourth limiting valve (409), a filter screen (410) and an opening and closing door (411);

three heating tank (203) bottom is run through and is installed condenser reflux pipe (401), condenser reflux pipe (401) one end is run through and is installed in collecting box (402) one end, the one end that condenser reflux pipe (401) was kept away from in collection box (402) is run through and is installed water supply pipe (403), water supply pipe (403) one side is connected with water pump (404) through the adapter, heat supply boiler (1) top one side is run through and is installed filler pipe (405), water supply pipe (403) embedding is installed in filler pipe (405) inboard, filler pipe (405) one side embedding is installed third limiting valve (406), outlet pipe (310) one end is connected with drain pipe (407) one end through the adapter, drain pipe (407) one end is run through and is installed in collection box (402) one side, it installs drain pipe (408) to collect box (402) one side run through, drain pipe (408) one side embedding is installed fourth limiting valve (409), collect box (402) inboard embedding and install filter screen (410), delivery pipe (403) one side is connected with clean pipe (217) through the adapter, it has opening and shutting door (411) to collect box (402) one side is articulated, delivery pump (404) input and external power supply output electric connection.

6. Steam dispensing system for jelly cooking according to claim 5, wherein the outside diameter of the water supply pipe (403) is equal to the inside diameter of the water supply pipe (405), and the inside diameter of the water discharge pipe (408) is larger than the inside diameter of the water discharge pipe (407).

7. The jelly cooking steam distribution system according to claim 1, wherein the top ends of the three heating tanks (203) are respectively provided with an exhaust pipe (5) in a penetrating manner, one end of each exhaust pipe (5) is connected with a gas return pipe (6) through a joint, one end of each gas return pipe (6) is arranged on one side of the heating boiler (1) in a penetrating manner, and one side of each exhaust pipe (5) is embedded with a fifth limiting valve (7);

the heat preservation cotton (8) have all been cup jointed in the gas-supply pipe (201) and blast pipe (5) outside, heat preservation (9) are installed in the inboard embedding of heating jar (203).

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