CN213187900U - Full-automatic external water source-free energy-saving pasteurization machine - Google Patents

Abstract

The utility model provides a full-automatic external water source energy-saving pasteurization machine exempts from, including the pasteurization pot, the pasteurization pot includes heating and refrigeration layer, state pasteurization pot bottom be provided with run through pot body outer wall and heating and refrigeration layer's drain pipe, the drain pipe is connected to first water pitcher, still be provided with first solenoid valve on the connecting pipe between drain pipe and the first water pitcher; the first water tank is connected with a self-priming water pump, the self-priming water pump is also connected with a second water tank, the second water tank is connected to a double-layer heat-preservation water tank, and the double-layer heat-preservation water tank is connected to a heating and refrigerating layer of a pasteurization pot; and a second electromagnetic valve is arranged on a connecting pipe between the second water tank and the double-layer heat-preservation water tank, and a third electromagnetic valve is arranged on a connecting pipe between the double-layer heat-preservation water tank and the pasteurization pot heating and refrigerating layer. The pasteurization machine carries out heating sterilization and refrigeration links under the condition of not needing an external water source, and is closed water circulation operation.

Description

Full-automatic external water source-free energy-saving pasteurization machine

Technical Field

The utility model relates to a pasteurization equipment field specifically is a full-automatic energy-saving pasteurization machine of external water source of exempting from.

Background

Pasteurization, also known as pasteurization, is mainly used on milk and can kill germs contained in the milk; milk is often subjected to pasteurization during processing.

The prior art pasteurizing machines have the following disadvantages: (1) at present, only a single material jar product is available in the market, namely, sterilization work (such as fresh milk) of the single product can be completed only when the machine is started every time, and if other products (such as fresh goat milk) are heated, the jar body needs to be cleaned and then the jar body can be used. In the prior art, if more than two products need to be sterilized in the actual use process, a series of additional expenses and work such as time, energy consumption, cleaning and the like can be caused.

(2) The existing pasteurizing machine cylinder is generally between 30L and 200L, if only a small amount of products (such as 5L) need to be heated, the cylinder is inconvenient to use due to overlarge cylinder, and even the normal work cannot be finished when the amount of the products needing to be processed is too small.

(3) The existing pasteurization machine utilizes a water circulation system to heat cold water, and only contacts with metal parts on the periphery of a material body to heat, and the central part of the material body has low temperature during heating, so that the heating is uneven and the heating time is slow.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a full-automatic energy-saving pasteurization machine of external water source exempts from under the condition that does not need external water source, carries out heat sterilization, refrigeration link, for closed hydrologic cycle operation.

In order to achieve the above object, the utility model provides a following technical scheme: the full-automatic external water source-free energy-saving pasteurization machine comprises a pasteurization pot, wherein the pasteurization pot comprises a heating and refrigerating layer, a refrigerating coil and a heating pipe are arranged in the heating and refrigerating layer, a heat insulation layer is arranged outside the heating and refrigerating layer, a drain pipe penetrating through the outer wall of the pot body and the heating and refrigerating layer is arranged at the bottom of the pasteurization pot, the drain pipe is connected to a first water tank, and a first electromagnetic valve is further arranged on a connecting pipe between the drain pipe and the first water tank; the first water tank is connected with a self-priming water pump, the self-priming water pump is also connected with a second water tank, the second water tank is connected to a double-layer heat-preservation water tank, and the double-layer heat-preservation water tank is connected to a heating and refrigerating layer of the pasteurization pot; and a second electromagnetic valve is also arranged on a connecting pipe between the second water tank and the double-layer heat-preservation water tank, and a third electromagnetic valve is also arranged on a connecting pipe between the double-layer heat-preservation water tank and the pasteurization pot heating and refrigerating layer.

Furthermore, a power supply system and an automatic circuit main board which is connected with the power supply system in a line are also arranged in the pasteurization pot.

Furthermore, water floating type sensors are arranged in the first water tank and the second water tank.

Furthermore, a temperature sensor is arranged in the heating and refrigerating layer.

Furthermore, the first water tank and the second water tank are common water storage tanks without heat preservation function.

The utility model discloses an innovation part lies in: the existing common refrigeration type pasteurization pot is connected with a first water tank, a second water tank and a double-layer heat-preservation water tank, cold water in a heating and refrigerating layer of the machine enters the double-layer heat-preservation water tank after passing through the first water tank and the second water tank (the common water tank without the heat-preservation function) through a self-absorption water pump, and hot water in the heating and refrigerating layer of the machine can enter the double-layer heat-preservation water tank after passing through the first water tank and the second water tank (the common water tank without the heat-preservation function) when the machine reaches a certain temperature (85 ℃), so that long-time heat-preservation storage is realized for the next heating; the whole set of equipment only needs to start the corresponding machine once no matter refrigerating or heating, and does not need to additionally add refrigerating or heating equipment, so that the energy of the equipment is recycled, the electric energy and the water energy are effectively saved, and the use cost of the equipment is also reduced.

Description of the drawings:

FIG. 1 is a structural connection diagram of a pasteurizer of the present invention;

reference numerals: the system comprises a pasteurization pot-1, a heating and refrigerating layer-2, a refrigerating coil-3, a heating pipe-4, a heat-insulating layer-5, a water drainage pipe-6, a first water tank-7, a first electromagnetic valve-8, a self-suction water pump-9, a second water tank-10, a double-layer heat-insulating water tank-11, a second electromagnetic valve-12, a third electromagnetic valve-13, a power supply system-14, an electric circuit main board-15, a temperature sensor-16 and a water floating sensor-17.

Detailed Description

Referring to fig. 1, the utility model provides a full-automatic external water source-free energy-saving pasteurization machine, including pasteurization pot 1, pasteurization pot 1 includes heating and refrigerating layer 2, heating and refrigerating layer 2 embeds there are refrigeration coil pipe 3 and heating pipe 4, and its outside is provided with heat preservation 5, pasteurization pot bottom is provided with drain pipe 6 that runs through pot body outer wall and heating and refrigerating layer, drain pipe 6 is connected to first water pitcher 7, still be provided with first solenoid valve 8 on the connecting pipe between drain pipe 6 and first water pitcher 7; the first water tank 7 is connected with a self-priming water pump 9, the self-priming water pump 9 is also connected with a second water tank 10, the second water tank 10 is connected to a double-layer heat-preservation water tank 11, and the double-layer heat-preservation water tank 11 is connected to the heating and refrigerating layer 2 of the pasteurization pot; a second electromagnetic valve 12 is further arranged on a connecting pipe between the second water tank 10 and the double-layer heat-preservation water tank 11, and a third electromagnetic valve 13 is further arranged on a connecting pipe between the double-layer heat-preservation water tank 11 and the pasteurization pot heating and refrigerating layer 2.

When the pasteurization pot is used, the pasteurization pot is a common pasteurization pot on the market, a power supply system 14 and an automatic circuit main board 15 in line connection with the power supply system are also arranged in the pasteurization pot, the automatic circuit main board 15 is connected with a refrigerating and heating system of the common refrigeration type pasteurization pot 1, a temperature sensor 16 is arranged on a heating and refrigerating layer 2 of the common refrigeration type pasteurization pot, the highest temperature (for example, 85 ℃) of the common refrigeration type pasteurization pot is set, and when the automatic circuit main board detects a signal given by a temperature controller when the temperature controller reaches the highest temperature, equipment automatically injects all cold water back into the heating and refrigerating layer after the machine finishes heating pasteurization (usually about 45 minutes), so that the function of rapid cooling is realized; on the contrary, when the machine reaches a certain temperature (85 ℃), hot water in the heating and refrigerating layers can pass through the first water tank and the second water tank (a common water storage tank without a heat preservation function) and then enter the double-layer heat preservation water storage tank, so that long-time heat preservation storage is realized for the next heating;

the specific core working steps are as follows: the open drainage condition of the first electromagnetic valve 8 is two: firstly, the first electromagnetic valve 8 is opened when the refrigeration and the heating are automatically closed and started up when the preset time is reached, and secondly, the first electromagnetic valve 8 is opened when the heating pot is automatically closed to heat and the refrigeration is started up after the temperature in the heating pot reaches 85 ℃.

Because the water floating type sensor 17 which is vertically installed is arranged inside the first water tank 7, the self-priming type water pump 9 is installed outside the first water tank 7 and is connected with the automatic circuit main board 15; when the water level in the first water tank 7 reaches the upper side position of the water floating type sensor 17, the self-priming water pump connected with the second water tank 10 is triggered to pump water (the water in the first water tank 7 is pumped into the second water tank 10), and the self-priming water pump connected with the first water tank 7 is triggered to stop working until the water level in the first water tank 7 is pumped into the lower side position of the water floating type sensor 17.

Because the water floating type sensor 17 and the second electromagnetic valve 12 which are vertically installed are arranged in the second water tank 10, when the water level in the second water tank 10 reaches the upper limit position of the water floating type sensor 17, the automatic opening of the second electromagnetic valve 12 is triggered, the water in the second water tank 10 is injected into the double-layer heat-preservation water tank 11 for storage, and in the process, when the water level in the second water tank 10 reaches the lower limit position of the water floating type sensor 17, the second electromagnetic valve 12 is automatically closed.

Because the third electromagnetic valve 13 is arranged at the bottom of the double-layer heat-preservation water tank 11, the water inlet interface at the top of the double-layer heat-preservation water tank 11 is connected with the water outlet interface of the second electromagnetic valve 12, and the water inlet interface of the third electromagnetic valve 13 at the bottom of the double-layer heat-preservation water tank 11 is connected with the water outlet interface of the hose at the top of the double-layer heat-preservation water tank 11; when the heating temperature of the pasteurization pot reaches 85 ℃, and after the first electromagnetic valve 8 finishes draining and closing the valve, hot water in the heating and refrigerating layer can enter the double-layer heat-preservation water storage tank through the first water tank and the second water tank (a common water storage tank without the heat preservation function), so that long-time heat preservation storage is realized, and the pasteurization pot can be used for heating next time. The corresponding machine is only needed to be started once no matter the whole set of equipment is refrigerated or heated, and refrigeration or heating equipment is not needed to be additionally added, so that the energy of the equipment is recycled, the required time for refrigerating or heating the equipment is shortened, electric energy and water energy are effectively saved, and the use cost of the equipment is also reduced.

Claims (5)

1. The full-automatic external water source-free energy-saving pasteurization machine comprises a pasteurization pot, wherein the pasteurization pot comprises a heating and refrigerating layer, a refrigerating coil and a heating pipe are arranged in the heating and refrigerating layer, and a heat-insulating layer is arranged outside the heating and refrigerating layer; the first water tank is connected with a self-priming water pump, the self-priming water pump is also connected with a second water tank, the second water tank is connected to a double-layer heat-preservation water tank, and the double-layer heat-preservation water tank is connected to a heating and refrigerating layer of the pasteurization pot; and a second electromagnetic valve is also arranged on a connecting pipe between the second water tank and the double-layer heat-preservation water tank, and a third electromagnetic valve is also arranged on a connecting pipe between the double-layer heat-preservation water tank and the heating and refrigerating layer of the pasteurization pot.

2. The fully automatic external water source-free energy-saving pasteurization machine as claimed in claim 1, wherein a power supply system and an automatic circuit main board in line connection with the power supply system are further arranged in the pasteurization pot.

3. The fully automatic external water source-free energy-saving pasteurization machine as claimed in claim 1, wherein water floating type sensors are arranged in the first water tank and the second water tank.

4. The fully automatic external water source-free energy-saving pasteurization machine as claimed in claim 1, characterized in that a temperature sensor is further arranged in the heating and refrigerating layer.

5. The fully automatic external water source-free energy-saving pasteurization machine as claimed in claim 1, wherein the first water tank and the second water tank are common water storage tanks without heat preservation function.

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