CN215016039U - Energy-saving boiling pot - Google Patents

Abstract

The utility model discloses an energy-saving stewing pot, which comprises a pot body, wherein the pot body is of a double-layer structure, a partition plate is horizontally arranged in the middle of the inner side of the outer layer of the pot body, and the partition plate divides an inner cavity into an upper steam cavity and a lower steam cavity; an air inlet valve is installed on one side of the outer layer of the pot body, a pressure release valve is installed on the other side of the outer layer of the pot body, a drain valve is installed at the bottom of the outer layer of the pot body, the highest steam pressure of the energy-saving boiling pot is not higher than 0.2mpa, the mode design that the upper layer and the lower layer are respectively filled with air is adopted for steam heating, the total volume of a steam interlayer is 18.33L, the upper region and the lower region are the same, the energy-saving boiling pot is a non-pressure container, the milo plate is adopted to be matched with the interlayer for segmentation, the overall strength is high, the heating interlayer is thin, a plurality of air inlets are matched, and the energy-saving simultaneous heating is rapid and uniform.

Description

Energy-saving boiling pot

Technical Field

The utility model relates to a system pot, concretely relates to energy-conserving system pot of stewing of steam.

Background

In daily life, the types of pots used by people are various, including dish pots, soup pots and the like, and sometimes the pots are heated at a higher temperature due to negligence or over-vigorous fire in a boiling process until rice and dishes become pasty, so that the eating of people is influenced, and even waste is caused. In order to avoid the problem that food is pasted on a pan and becomes pasty after being heated, some pans with composite bottoms are on the market at present, non-stick coatings are additionally arranged on some pans, and unsafe factors exist for eating. In addition, in the production process of some products, various heating devices and various pots are used for heating a certain substance, and if the operation is not proper, the phenomenon of overheating can occur, so that the normal production is influenced. The steam heating stewing pot is widely applied due to energy conservation and environmental protection, but the traditional steam heating stewing pot has the disadvantages of uneven heating, larger layer gap, slower heating and poor energy-saving effect.

Disclosure of Invention

To the not enough of above-mentioned prior art, the utility model aims to solve the technical problem that: how to provide a steam stewing pot which is rapid in heating, energy-saving and uniform in heating.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the energy-saving boiling pot comprises a pot body, wherein the pot body is of a double-layer structure and comprises a pot body inner layer and a pot body outer layer, the upper edge of the pot body outer layer is welded with the upper part of the outer side of the pot body inner layer, and a gap is formed between the inner layer and the outer layer to form an inner cavity; a partition board is horizontally arranged in the middle of the inner side of the outer layer of the pot body, and the partition board divides an inner cavity into an upper steam cavity and a lower steam cavity; an air inlet valve is installed on one side of the outer layer of the pot body, a pressure release valve is installed on the other side of the outer layer of the pot body, a drain valve is installed at the bottom of the outer layer of the pot body, the air inlet valve and the pressure release valve are both communicated with the upper layer steam cavity, the drain valve is communicated with the lower layer steam cavity, meanwhile, the air inlet valve and the pressure release valve are both communicated with the lower layer steam cavity through an air pipe, and the drain valve is communicated with the upper layer steam cavity through a drain pipe; steam can get into upper steam chamber and lower floor's steam chamber simultaneously by the admission valve to discharged by the relief valve, the condensate water that steam produced can be discharged by the trap. Like this, through setting up the pot body into two steam heating cavity of mutual independence, make steam can be faster be full of whole pot body heating cavity in to the heat loss is less, thereby makes the heating more rapidly and even, and energy-conserving effect is better.

Furthermore, an upper layer air inlet and a lower layer air inlet are respectively formed on the outer layer of the pot body corresponding to the upper layer steam chamber and the lower layer steam chamber; the air inlet valve is a three-way valve, the air inlet end of the three-way valve is used for connecting steam, one air outlet end is communicated with the upper-layer air inlet, and the other air outlet end is communicated with the lower-layer air inlet. Like this, steam passes through upper air inlet and lower floor's air inlet and gets into upper steam chamber and lower floor's steam chamber when can be quick through the admission valve, and the heating is more even rapid, and the thermal efficiency is higher.

Further, an upper layer gas outlet and a lower layer gas outlet are respectively formed in the outer layer of the pot body corresponding to the upper layer steam chamber and the lower layer steam chamber, the pressure release valve is a three-way valve, one of the gas inlet ends is communicated with the upper layer gas outlet, the other gas inlet end is communicated with the lower layer gas outlet, and the gas outlet end of the pressure release valve is used for discharging steam. Therefore, the steam in the upper steam chamber and the lower steam chamber is discharged through the pressure release valve simultaneously, and the continuous heating of the pot body is realized.

Furthermore, the bottom of the outer layer of the pot body is provided with an upper drainage hole and a lower drainage hole corresponding to the upper steam cavity and the lower steam cavity respectively, the drainage valve is a three-way valve, one of the three-way valve is communicated with the lower drainage hole, the other inlet end is communicated with the upper drainage hole through a drainage pipe, and the outlet end of the three-way valve is used for discharging condensed water. Like this, in the heating process, the comdenstion water in upper steam chamber and the lower floor's steam chamber all can discharge through the trap, keeps the air current unobstructed in making pot body intermediate layer, improves life and heating efficiency.

Furthermore, a water outlet pipe is also arranged at the bottom of the pot body, penetrates through the outer layer of the pot body and the inner layer of the pot body and is welded with the outer layer of the pot body and the inner layer of the pot body simultaneously.

Further, a heat-insulating shell is arranged on the outer side of the pot body, the upper side of the heat-insulating shell extends to the upper side of the upper edge of the outer layer of the pot body and is fixedly connected with the inner layer of the pot body, and the lower side of the heat-insulating shell extends to the lower side of the upper edge of the outer layer of the pot body and is fixedly connected with the outer layer of the pot body; and a perlite heat-insulating layer is filled between the heat-insulating shell and the pot body. Like this, through set up the lagging casing near admission valve and relief valve, can effectual reduction calorific loss, improve energy-conserving effect.

Furthermore, the heat-insulating shell comprises an upper shell and a lower shell which surround the pot body for a circle, wherein the section of the upper shell is in an inverted L shape, the section of the lower shell is in an L shape, and the vertical sections of the upper shell and the lower shell are connected to form the side wall of the heat-insulating shell; through holes are formed in the side wall of the heat preservation shell corresponding to the positions of the air inlet valve and the pressure release valve, and the air inlet valve and the air outlet valve are connected with the outer layer of the pot body after penetrating through the through holes; gaps are arranged between the air inlet valve, the pressure release valve and the edges of the through holes and used for inserting the perlite heat-insulating layer into the heat-insulating shell. Like this, the insulating casing is with admission valve and relief valve and trachea all cladding wherein, further improvement heat preservation effect, it is more energy-conserving.

Further, a protective cover is arranged below the heat insulation shell and comprises a bottom plate and a side plate which surrounds the pot body for a circle, the upper edge of the side plate is welded with the heat insulation shell, a through hole is formed in the position, corresponding to the water outlet pipe and the drain valve, of the bottom plate, and the water outlet pipe and the drain valve are connected with the outside of the pot body after penetrating through the through hole. Therefore, the pot body can be protected by the protective cover, scalding is prevented, and the protective cover can also play a certain heat preservation role in the bottom of the pot body.

Furthermore, a plurality of triangular supports are arranged at the lower part of the pot body. Thus improving the stability of the pan body.

Drawings

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

In the figure: 1 pot internal layer, 2 pot external layers, 3 baffles, 4 upper steam cavity, 5 lower floor's steam cavity, 6 admission valves, 7 relief valves, 8 trap, 9 trap, 10 outlet pipes, 11 epitheca, 12 lower casings, 13 heat preservation, 14 triangular supports, 15 safety covers.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

Example (b):

as shown in figure 1, an energy-conserving system pot of enduring, including the pot body, the pot body is the bilayer structure that Miller board jacket welded, and it includes internal 1 of pot and external 2 of pot, and the top edge of external 2 of pot and the welding of the outside upper portion of internal 1 of pot are in the same place, and wherein the external 2 inboard pressings of pot have a plurality of arch, and this bellied center department has the welding hole, and the welding is in the same place through this welding hole between internal and the skin to make internal 1 of pot and the external 2 of pot form cellular inner chamber. A clapboard 3 is horizontally arranged in the middle of the inner side of the outer layer 2 of the pot body, and the clapboard 3 divides the inner cavity into an upper steam cavity and a lower steam cavity; install admission valve 6 in one side of pot body outer layer 2, relief valve 7 is installed to the opposite side, installs trap 8 in the bottom of pot body outer layer 2, admission valve 6 and relief valve 7 all communicate with upper steam cavity 4, and trap 8 and lower floor steam cavity 5 communicate, and simultaneously, admission valve 6 and relief valve 7 all communicate with lower floor steam cavity 5 through the trachea, and trap 8 communicates with upper steam cavity 4 through drain pipe 9. An upper layer air inlet and a lower layer air inlet are respectively formed on the outer layer 2 of the pot body corresponding to the upper layer steam chamber 4 and the lower layer steam chamber 5; the air inlet valve 6 is a three-way valve, the air inlet end of the three-way valve is used for connecting steam, one air outlet end is communicated with the upper-layer air inlet, and the other air outlet end is communicated with the lower-layer air inlet. Like this, steam can be fast simultaneously through upper air inlet and lower floor's air inlet entering upper steam chamber 4 and lower floor's steam chamber 5 through admission valve 6, and the heating is more even quick, and the thermal efficiency is higher. The pot body outer layer 2 is provided with an upper layer gas outlet and a lower layer gas outlet corresponding to the upper layer steam chamber 4 and the lower layer steam chamber 5 respectively, the pressure release valve 7 is a three-way valve, one of the gas inlet ends is communicated with the upper layer gas outlet, the other gas inlet end is communicated with the lower layer gas outlet, and the gas outlet end is used for discharging steam. Thus, the steam in the upper steam chamber 4 and the lower steam chamber 5 is discharged through the pressure release valve 7 at the same time, thereby realizing the continuous heating of the pot body. The bottom of the outer layer 2 of the pot body corresponds to the upper steam chamber 4 and the lower steam chamber 5 and is respectively provided with an upper drainage hole and a lower drainage hole, the drainage valve 8 is a three-way valve, one of the two is communicated with the lower drainage hole, the other is communicated with the upper drainage hole through a drainage pipe 9, and the water outlet end of the drainage valve is used for discharging condensed water. Like this, in the heating process, the comdenstion water in upper steam chamber 4 and the steam chamber 5 of lower floor all can discharge through trap 8, keeps the air current unobstructed in making pot body intermediate layer, improves life and heating efficiency.

Steam can enter the upper steam chamber 4 and the lower steam chamber 5 simultaneously through the air inlet valve 6 and is discharged through the pressure release valve 7, and condensed water generated by the steam can be discharged through the drain valve 8. Like this, through setting up the pot body into two steam heating cavity of mutual independence, make steam can be faster be full of whole pot body heating cavity in to the heat loss is less, thereby makes the heating more rapidly and even, and energy-conserving effect is better.

The bottom of the pot body is also provided with a water outlet pipe 10, and the water outlet pipe 10 penetrates through the outer layer 2 of the pot body and the inner layer 1 of the pot body and is welded with the outer layer 2 of the pot body and the inner layer 1 of the pot body simultaneously. The water outlet pipe 10 is used for discharging the substance in the pot body.

The outer side of the pot body is provided with a heat insulation shell, the upper side of the heat insulation shell extends to the upper edge of the outer layer 2 of the pot body and is fixedly connected with the inner layer 1 of the pot body, and the lower side of the heat insulation shell extends to the lower side of the upper edge of the outer layer 2 of the pot body and is fixedly connected with the outer layer 2 of the pot body; and a perlite heat-insulating layer 13 is filled between the heat-insulating shell and the pot body. The heat-insulation shell comprises an upper shell 11 and a lower shell 12 which surround the pot body for one circle, wherein the section of the upper shell 11 is in an inverted L shape, the section of the lower shell 12 is in an L shape, and the vertical sections of the upper shell 11 and the lower shell 12 are connected to form the side wall of the heat-insulation shell; through holes are formed in the side wall of the heat preservation shell corresponding to the positions of the air inlet valve 6 and the pressure release valve 7, and the air inlet valve 6 and the air outlet valve are connected with the outer layer 2 of the pot body after penetrating through the through holes; wherein, there is the clearance between the edge of admission valve 6 and relief valve 7 and through-hole for pack the pearlite heat preservation 13 into the heat preservation shell. Therefore, the heat-insulating shell is arranged near the air inlet valve 6 and the pressure release valve 7, so that the heat loss can be effectively reduced, and the energy-saving effect is improved. The heat preservation shell covers the air inlet valve 6, the pressure release valve 7 and the air pipe, so that the heat preservation effect is further improved, and more energy is saved.

A protective cover 15 is arranged below the heat-insulating shell, and a plurality of triangular supports 14 are arranged at the lower part of the pot body, so that the stability and the safety of the pot body are improved. The safety cover 15 includes the bottom plate and the curb plate around the pot body a week, the top edge and the lagging casing welding of curb plate, the through-hole has been seted up to the position that corresponds outlet pipe 10 and trap 8 on its bottom plate to the through-hole has also been seted up in the position that corresponds triangular support 14, outlet pipe 10 and trap 8 pass and link to each other with the pot body outside behind this through-hole. Therefore, the pot body can be protected by the protective cover 15, scalding is prevented, and the protective cover 15 can also play a certain heat preservation role for the bottom of the pot body.

This energy-conserving system pot, highest steam pressure is not higher than 0.2mpa, and steam heating adopts the mode design that upper and lower layering admits air respectively, and steam intermediate layer total volume is 18.33L, and upper and lower two regions are the same, for non-pressure vessel, adopts the cooperation intermediate layer of milo board to cut apart, and bulk strength is high, and the heating intermediate layer is thin, and the cooperation is many air inlets, and the heating is even rapidly when energy-conserving.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the technical solutions, and although the applicant has described the present invention in detail with reference to the preferred embodiments, those skilled in the art should understand that those modifications or equivalent substitutions to the technical solutions of the present invention can be made without departing from the spirit and scope of the technical solutions, and all the modifications and equivalent substitutions should be covered by the claims of the present invention.

Claims (9)

1. An energy-saving stewing pot comprises a pot body, wherein the pot body is of a double-layer structure and comprises a pot body inner layer and a pot body outer layer, the upper edge of the pot body outer layer is welded with the upper part of the outer side of the pot body inner layer, and a gap is formed between the inner layer and the outer layer to form an inner cavity; the steam cooker is characterized in that a partition plate is horizontally arranged in the middle of the inner side of the outer layer of the cooker body, and the partition plate divides an inner cavity into an upper steam chamber and a lower steam chamber; an air inlet valve is installed on one side of the outer layer of the pot body, a pressure release valve is installed on the other side of the outer layer of the pot body, a drain valve is installed at the bottom of the outer layer of the pot body, the air inlet valve and the pressure release valve are both communicated with the upper layer steam cavity, the drain valve is communicated with the lower layer steam cavity, meanwhile, the air inlet valve and the pressure release valve are both communicated with the lower layer steam cavity through an air pipe, and the drain valve is communicated with the upper layer steam cavity through a drain pipe; steam can get into upper steam chamber and lower floor's steam chamber simultaneously by the admission valve to discharged by the relief valve, the condensate water that steam produced can be discharged by the trap.

2. The energy-saving stewing pot according to claim 1, wherein an upper layer air inlet and a lower layer air inlet are respectively formed on the outer layer of the pot body corresponding to the upper layer steam chamber and the lower layer steam chamber; the air inlet valve is a three-way valve, the air inlet end of the three-way valve is used for connecting steam, one air outlet end is communicated with the upper-layer air inlet, and the other air outlet end is communicated with the lower-layer air inlet.

3. The energy-saving decocting pot according to claim 1, wherein the outer layer of the pot body is provided with an upper layer gas outlet and a lower layer gas outlet corresponding to the upper layer steam chamber and the lower layer steam chamber respectively, the pressure release valve is a three-way valve, one of the gas inlet ends is communicated with the upper layer gas outlet, the other gas inlet end is communicated with the lower layer gas outlet, and the gas outlet end is used for discharging steam.

4. The energy-saving decocting pot according to claim 1, wherein the bottom of the outer layer of the pot body is provided with an upper layer drain hole and a lower layer drain hole corresponding to the upper layer steam chamber and the lower layer steam chamber respectively, the drain valve is a three-way valve, one water inlet end is communicated with the lower layer drain hole, the other water inlet end is communicated with the upper layer drain hole through a drain pipe, and the water outlet end is used for discharging condensed water.

5. The energy-saving decocting pot according to claim 1, wherein a water outlet pipe is further installed at the bottom of the pot body, penetrates through the outer layer and the inner layer of the pot body, and is welded with the outer layer and the inner layer of the pot body simultaneously.

6. The energy-saving decocting pot according to any one of claims 1-5, wherein a heat-insulating shell is arranged outside the pot body, the upper side of the heat-insulating shell extends to the upper side of the upper edge of the outer layer of the pot body and is fixedly connected with the inner layer of the pot body, and the lower side of the heat-insulating shell extends to the lower side of the upper edge of the outer layer of the pot body and is fixedly connected with the outer layer of the pot body; and a perlite heat-insulating layer is filled between the heat-insulating shell and the pot body.

7. The energy-saving stewing pot according to claim 6, wherein the heat-insulating shell comprises an upper shell and a lower shell which surround the pot body for a circle, wherein the section of the upper shell is in an inverted L shape, the section of the lower shell is in an L shape, and vertical sections of the upper shell and the lower shell are connected to form a side wall of the heat-insulating shell; through holes are formed in the side wall of the heat preservation shell corresponding to the positions of the air inlet valve and the pressure release valve, and the air inlet valve and the air outlet valve are connected with the outer layer of the pot body after penetrating through the through holes; gaps are arranged between the air inlet valve, the pressure release valve and the edges of the through holes and used for inserting the perlite heat-insulating layer into the heat-insulating shell.

8. The energy-saving decocting pot according to claim 7, wherein a protective cover is further arranged below the heat-insulating shell, the protective cover comprises a bottom plate and a side plate which surrounds the pot body for one circle, the upper edge of the side plate is welded with the heat-insulating shell, through holes are arranged on the bottom plate corresponding to the positions of the water outlet pipe and the drain valve, and the water outlet pipe and the drain valve are connected with the outer side of the pot body after penetrating through the through holes.

9. The energy-saving decocting pot of claim 7, wherein a plurality of triangular brackets are arranged at the lower part of the pot body.

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