CN209939481U - Energy-saving heat-preservation storage tank - Google Patents

Abstract

The utility model discloses an energy-conserving heat preservation storage tank, including outer jar, the inner tank, main feed inlet, main discharge gate, interior feed inlet, the inlet tube, the outlet pipe, first heating coil, second heating coil, solar heating system, temperature control device and water pump, outer pot cover is established on the inner tank, main feed inlet and outer jar intercommunication, main discharge gate and inner tank intercommunication, including first heating coil establishes in the inner tank, second heating coil establishes between outer jar and inner tank, the bottom at the inner tank is established to interior feed inlet, solar heating system, a water pump, the inlet tube, first heating coil, second heating coil, the outlet pipe communicates in proper order, the end of outlet pipe inserts solar heating system, temperature control device establishes on outer jar. Has the advantages that: adopt the structure of double-deck cover jar, the inner tank is main heating region and user storage output, and outer jar is for keeping warm and subsidiary storage function, is equipped with the cotton structure of heat preservation is filled to the double-deck cavity of the inner tank jar body for the storage tank is energy-conserving effect when heat retaining is superior.

Description

Energy-saving heat-preservation storage tank

Technical Field

The utility model relates to a heat preservation technical field, concretely relates to energy-conserving heat preservation storage tank.

Background

The storage tank is used as a storage appliance for large-dose media and is widely used in various industries, however, due to the fact that the storage tank is large in volume and the requirement of a user for the internal capacity of the storage tank is large, the storage tank is difficult to solve the problem through the structural change of the storage tank under the actual large requirement of heat preservation, the freezing of the internal media and the requirement of the user for the temperature of the internal media are usually prevented through the additional arrangement of the heat preservation layer on the outer portion of the storage tank, the internal electric heating, the solar heating and the like, but the solution can consume too much electric energy or solar energy on the premise that the storage tank is large in volume, and meanwhile, sometimes, the user needs to wait for a long heating time when the storage tank is used in large dose.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an it is not enough that prior art is overcome to the purpose, an energy-conserving heat preservation storage tank is provided, adopt the structure of double-deck cover jar, interior inner tank passes through the interior feed inlet intercommunication of inner tank bottom portion, the effect of inner tank is main heating region and user storage output, outer jar is the heat preservation of inner tank and also stores the function by the way simultaneously, outer jar preheats earlier and then gets into inner tank centralized heating and exports after the user sets for the temperature, solar energy is given first place to, electric heating is reserve, the storage tank is more energy-conserving, thermal insulation performance is more superior.

The purpose of the utility model is achieved through the following technical measures: the utility model provides an energy-conserving heat preservation storage tank, includes outer jar, inner tank, main feed inlet, main discharge gate, interior feed inlet, inlet tube, outlet pipe, first heating coil, second heating coil, solar heating system, temperature control device and water pump, outer tank cover is established on the inner tank, main feed inlet and outer jar intercommunication, main discharge gate and inner tank intercommunication, first heating coil establishes in the inner tank, second heating coil establishes between outer jar and inner tank, and interior feed inlet establishes the bottom at the inner tank, and solar heating system, water pump, inlet tube, first heating coil, second heating coil, outlet pipe communicate in proper order, and the end of outlet pipe inserts solar heating system, and temperature control device establishes on outer jar, the heat conduction area of contact of first heating coil is bigger than the heat conduction area of contact of second heating coil.

Further, the probe of the temperature control device is arranged in the inner tank.

Further, the temperature control device is a temperature controller.

Furthermore, the energy-saving heat-preservation storage tank is also provided with a liquid level meter, and the liquid level meter is used for measuring the liquid level value in the outer tank.

Further, the first heating coil and the second heating coil are communicated through the inner feed inlet.

Further, the inner tank is of a double-layer hollow structure.

Furthermore, the double-layer hollow structure of the inner tank is filled with heat insulation cotton.

Furthermore, the energy-saving heat-preservation storage tank is also provided with an electric heating system, and the electric heating system is connected with the solar heating system in series and is adjacent to the solar heating system.

Compared with the prior art, the beneficial effects of the utility model are that:

1. adopt the structure of double-deck cover jar, the effect of inner tank is main heating region and user storage output, and outer jar is for keeping warm and subsidiary storage function, is equipped with the double-deck cavity of the inner tank jar body and fills the cotton structure of heat preservation for the storage tank is energy-conserving effect when keeping warm is superior.

2. And a liquid level meter in the outer tank is matched, so that the medium capacity in the tank can be accurately mastered in real time.

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

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

Detailed Description

The embodiment, as shown in fig. 1, an energy-conserving heat preservation storage tank, including outer jar 1, inner tank 2, main feed inlet 3, main discharge gate 4, interior feed inlet 5, inlet tube 7, outlet pipe 8, first heating coil 6, second heating coil 14, solar heating system 13, temperature control device 10 and water pump 11, outer jar 1 cover is established on inner tank 2, and main feed inlet 3 communicates with outer jar 1, and main discharge gate 4 communicates with inner tank 2, and first heating coil 6 is established in inner tank 2, and second heating coil 14 is established between outer jar 1 and inner tank 2, and interior feed inlet 5 is established in the bottom of inner tank 2, and solar heating system 13, water pump 11, inlet tube 7, first heating coil 6, second heating coil 14, outlet pipe 8 communicate in proper order, and the end of outlet pipe 8 inserts solar heating system 13, and temperature control device 10 is established on outer jar 1. The heat conducting contact area of the first heating coil 6 is larger than that of the second heating coil 14, so that the inner tank 2 is ensured to be a main heating area. Adopt the structure of double-deck cover jar, interior outer jar 1 communicates through interior feed inlet 5 of 2 bottoms of inner tank, and inner tank 2 is main heating region and user storage output, and outer jar 1 is also subsidiary storage function simultaneously for inner tank 2's heat preservation. When a user uses the storage tank, the outer tank 1 is equivalently preheated and then enters the inner tank 2 to be heated to the temperature set by the user in a centralized manner and then is output. When the small dose is output, the outer tank 1 serves as a heat insulation layer for the inner tank 2, and when the large dose is output, the heating time is saved for a user.

The temperature control device 10 is a temperature controller, and a probe of the temperature controller is arranged in the inner tank 2. Because the inner tank 2 is a discharge tank for the medium in the tank, the actual medium temperature required by the user can be conveniently mastered by the temperature controller. The temperature in the tank can be monitored in real time, and the opening and closing of the water pump 11 are controlled, so that the constant temperature in the inner tank is ensured.

The energy-saving heat-preservation storage tank is also provided with a liquid level meter 9, and the liquid level meter 9 is used for measuring the liquid level value in the outer tank 1. The liquid level meter 9 is convenient for a user to master the liquid level of the medium in the tank in real time.

The first heating coil 6 and the second heating coil 14 are communicated through the inner feed opening 5.

The inner tank 2 is of a double-layer hollow structure, and heat insulation cotton is filled in the double-layer hollow structure, so that the heat insulation performance of the inner tank 2 is improved, and meanwhile, the heat transfer between the inner tank 2 and the outer tank 1 is also avoided.

The energy-saving heat-preservation storage tank is further provided with an electric heating system 12, and the electric heating system 12 is connected with the solar heating system 13 in series in an adjacent mode. When the solar heating cannot well meet the requirement of a user on the medium temperature, the electric heating system 12 is used for heating the inside of the tank.

It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. An energy-conserving heat preservation storage tank which characterized in that: including outer jar, inner tank, main feed inlet, main discharge gate, interior feed inlet, inlet tube, outlet pipe, first heating coil, second heating coil, solar heating system, temperature control device and water pump, outer jar cover is established on the inner tank, main feed inlet and outer jar intercommunication, main discharge gate and inner tank intercommunication, including first heating coil establishes in the jar, second heating coil establishes between outer jar and the inner tank, the bottom at the inner tank is established to interior feed inlet, solar heating system, water pump, inlet tube, first heating coil, second heating coil, outlet pipe communicate in proper order, the end of outlet pipe inserts solar heating system, temperature control device establishes on outer jar, the heat conduction area of contact of first heating coil is bigger than the heat conduction area of contact of second heating coil.

2. The energy-saving heat-preservation storage tank of claim 1, characterized in that: and a probe of the temperature control device is arranged in the inner tank.

3. The energy-saving heat-preservation storage tank of claim 2, characterized in that: the temperature control device is a temperature controller.

4. The energy-saving heat-preservation storage tank of claim 1, characterized in that: the energy-saving heat-preservation storage tank is also provided with a liquid level meter, and the liquid level meter is used for measuring the liquid level value in the outer tank.

5. The energy-saving heat-preservation storage tank of claim 1, characterized in that: the first heating coil and the second heating coil are communicated through the inner feed inlet.

6. The energy-saving heat-preservation storage tank of claim 1, characterized in that: the inner tank is of a double-layer hollow structure.

7. The energy-saving heat-preservation storage tank of claim 6, characterized in that: the double-layer hollow structure of the inner tank is filled with heat insulation cotton.

8. The energy-saving heat-preservation storage tank of claim 1, characterized in that: the energy-saving heat-preservation storage tank is also provided with an electric heating system, and the electric heating system is connected with the solar heating system in series and is adjacent to the solar heating system.

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