CN218246951U - Be applied to integrated water route board of broken wall machine - Google Patents
Be applied to integrated water route board of broken wall machine Download PDFInfo
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- CN218246951U CN218246951U CN202221318265.2U CN202221318265U CN218246951U CN 218246951 U CN218246951 U CN 218246951U CN 202221318265 U CN202221318265 U CN 202221318265U CN 218246951 U CN218246951 U CN 218246951U
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Abstract
The utility model discloses an integrated water route board applied to a wall breaking machine, which relates to the technical field of integrated water route systems for food processing equipment, and comprises a diaphragm pump, wherein the inlet of the diaphragm pump is connected with the outlet of a three-way solenoid valve I through a pipeline, the outlet of the diaphragm pump is connected with the inlet of a flowmeter through a pipeline, the outlet of the flowmeter is connected with the inlet of a three-way solenoid valve II through a pipeline, one outlet of the three-way solenoid valve II is connected with one inlet of a three-way solenoid valve III through a pipeline, and the outlet of the three-way solenoid valve III is provided with a cold water outlet; the other outlet of the three-way electromagnetic valve II is connected with the inlet of the water heating component through a pipeline. Can carry out comprehensive high temperature sterilization operation to integrated pipeline fast, to the comprehensive sterilization of cold water and hot water, reduce hiding of bacterium, the growth of microorganisms such as effectual suppression bacterium in the integrated water route of broken wall machine breeds.
Description
Technical Field
The utility model relates to a food processing equipment specifically is a be applied to integrated water route board of broken wall machine with integrated water route system technical field.
Background
At present, the broken wall machine that uses on the market breeds a large amount of bacteriums in inside pipeline easily, produces drinking water pollution problem, and the problem of microbial contamination has been considered to a lot of broken wall machines, and the scope of sterilization is limited, can not carry out comprehensive high temperature sterilization to cold water pipeline and hot water pipeline, leads to the follow-up a large amount of bacteriums of breeding fast again that will of integrated water route system.
SUMMERY OF THE UTILITY MODEL
The to-be-solved technical problem of the utility model is to overcome current defect, provide an integrated water route board of being applied to broken wall machine, can carry out comprehensive high temperature sterilization operation to integrated pipeline in the broken wall machine, to cold water and the comprehensive sterilization of hot water, reduce hiding of bacterium, the growth of microorganisms such as effectual inhibition bacterium in integrated water route breeds, can effectively solve the problem in the background art.
In order to achieve the above object, the utility model provides a following technical scheme: an inlet of the diaphragm pump is connected with an outlet of a first three-way electromagnetic valve through a pipeline, an outlet of the diaphragm pump is connected with an inlet of a flowmeter through a pipeline, an outlet of the flowmeter is connected with an inlet of a second three-way electromagnetic valve through a pipeline, an outlet of the second three-way electromagnetic valve is connected with an inlet of a third three-way electromagnetic valve through a pipeline, and an outlet of the third three-way electromagnetic valve is provided with a cold water outlet;
another export of three way solenoid valve two passes through the import of pipe connection water heating element, install fuse and temperature controller on the water heating element, the export of water heating element passes through the import of pipe connection two way solenoid valve, the export of two way solenoid valve is provided with the hot water export.
Diaphragm pump work, introduce the water source through three way solenoid valve one, the diaphragm pump is gone into the water source pump and is done the statistics of the water yield in the flowmeter, then flow to the cold water outlet discharge cold water of three departments of three way solenoid valve through two three way solenoid valves, water that flows when the flowmeter enters into the heating element internal heating through two three way solenoid valves, the heating temperature of temperature controller control water heating element to water, the fuse plays the guard action of circuit, water after the heating in the heating element passes through the hot water outlet discharge hot water of two way solenoid valves departments, cold and hot hydroenergy fast switch, and convenient use.
Furthermore, a first negative temperature coefficient thermistor is installed at an outlet of the three-way electromagnetic valve II, which is connected with the water heating assembly, a second negative temperature coefficient thermistor is installed at an inlet of the two-way electromagnetic valve, and the difference of water temperatures before and after the water heating assembly heats water can be monitored through the first negative temperature coefficient thermistor and the second negative temperature coefficient thermistor, and can be fed back to the temperature controller, so that the control of the temperature controller on the water heating assembly is facilitated.
Furthermore, one inlet of the first three-way electromagnetic valve is connected with a water outlet of the first water tank through a pipeline, the other inlet of the first three-way electromagnetic valve is connected with a water outlet of the second water tank through a pipeline, and the first water tank and the second water tank are used for supplying cold water.
Furthermore, the outlet of the two-way electromagnetic valve is connected with the inlet of the second one-way valve through a pipeline, the outlet of the second one-way valve is connected with one end of the intermediate connecting pipeline, the other end of the intermediate connecting pipeline is connected with the other inlet of the third three-way electromagnetic valve, the two-way electromagnetic valve and the third three-way electromagnetic valve are connected through the intermediate connecting pipeline, so that a cold water line and a hot water line are communicated, and the flow direction of water flow or steam is limited by the second one-way valve, so that backflow is avoided.
Furthermore, the side face of the second three-way electromagnetic valve is connected with an exhaust port, the exhaust port is connected with an inlet of the first one-way valve through a pipeline, an outlet of the first one-way valve is connected with an air inlet of the second water tank, evaporation for high-temperature sterilization in the second three-way electromagnetic valve can be discharged into the second water tank through the exhaust port, a loop of high-temperature sterilization steam in the second water tank is formed, sterilization in the second water tank is facilitated, and the first one-way valve is used for limiting the flow direction of the steam and avoiding backflow.
The side surface of the middle connecting pipeline is connected with an inlet of the check valve III, an outlet of the check valve III is connected with the working container through a pipeline, discharged hot water or cold water can enter the working container for use, and water in the working container is prevented from flowing back to the middle connecting pipeline through the check valve III.
Compared with the prior art, the beneficial effects of the utility model are that: this take integrated waterway system of high temperature sterilization has following benefit:
1. diaphragm pump work, introduce the water source through three way solenoid valve one, the diaphragm pump is gone into the water source pump and is done the statistics of the water yield in the flowmeter, then two cold water outlet discharge cold water that flow to three departments of three way solenoid valve through three way solenoid valve, water that flows when the flowmeter enters into the water heating assembly internal heating through two three way solenoid valves, the heating temperature of temperature controller control water heating assembly to water, the fuse plays the guard action of circuit, water after the water heating assembly internal heating is through the hot water outlet discharge hot water of two way solenoid valve departments, cold and hot hydroenergy fast switch, and convenient use.
2. Can carry out comprehensive high temperature sterilization operation to the integrated pipeline, to cold water and the comprehensive sterilization of hot water, reduce hiding of bacterium, the growth reproduction of microorganism such as effectual inhibition bacterium in the integrated water route of broken wall machine.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic diagram of the cold water circuit of the present invention;
FIG. 3 is a schematic diagram of the hot water circuit of the present invention;
FIG. 4 is a schematic view of the high temperature sterilization circuit of the present invention;
FIG. 5 is a schematic diagram of a cold water circuit using a working vessel according to the present invention;
fig. 6 is a schematic diagram of a hot water circuit using the working vessel of the present invention.
In the figure: the system comprises a 1 three-way electromagnetic valve I, a 2 diaphragm pump, a 3 flow meter, a 4 one-way valve I, a 5 three-way electromagnetic valve II, a 6 negative temperature coefficient thermistor I, a 7 water heating component, a die-casting aluminum heating element water heater/steam generator, an 8 fuse, a 9 temperature controller, a 10 negative temperature coefficient thermistor II, a 11 two-way electromagnetic valve, a 12 one-way valve II, a 13 three-way electromagnetic valve III, a 14 one-way valve III, a 15 working container, a 16 water tank I, a 17 water tank II, an 18 cold water outlet and a 19 hot water outlet.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.
In a first embodiment, please refer to fig. 1-3, the present invention provides a technical solution: an integrated waterway plate applied to a wall breaking machine comprises a diaphragm pump 2, wherein an inlet of the diaphragm pump 2 is connected with an outlet of a three-way electromagnetic valve I1 through a pipeline, an outlet of the diaphragm pump 2 is connected with an inlet of a flow meter 3 through a pipeline, an outlet of the flow meter 3 is connected with an inlet of a three-way electromagnetic valve II 5 through a pipeline, an outlet of the three-way electromagnetic valve II 5 is connected with an inlet of a three-way electromagnetic valve III 13 through a pipeline, and an outlet of the three-way electromagnetic valve III 13 is provided with a cold water outlet 18;
the other outlet of the second three-way electromagnetic valve 5 is connected with the inlet of the water heating assembly 7 through a pipeline, a fuse 8 and a temperature controller 9 are installed on the water heating assembly 7, the outlet of the water heating assembly 7 is connected with the inlet of the two-way electromagnetic valve 11 through a pipeline, and the outlet of the two-way electromagnetic valve 11 is provided with a hot water outlet 19.
The outlet of the three-way electromagnetic valve II 5 connected with the water heating component 7 is provided with a first negative temperature coefficient thermistor 6, the inlet of the two-way electromagnetic valve 11 is provided with a second negative temperature coefficient thermistor 10, the difference of the water temperatures of the water heating component 7 before and after water heating can be monitored through the first negative temperature coefficient thermistor 6 and the second negative temperature coefficient thermistor 10, and the difference can be fed back to the temperature controller 9, so that the control of the temperature controller 9 on the water heating component 7 is facilitated.
One inlet of the three-way electromagnetic valve I1 is connected with a water outlet of the water tank I16 through a pipeline, the other inlet of the three-way electromagnetic valve I1 is connected with a water outlet of the water tank II 17 through a pipeline, and the water tank I16 and the water tank II 17 are used for supplying cold water.
When the diaphragm pump 2 works, water in the water tank I16 or the water tank II 17 is introduced through the three-way electromagnetic valve I1, a water source is pumped into the flowmeter 3 by the diaphragm pump 2 to be counted, then the water flows to the cold water outlet 18 at the three-way electromagnetic valve III 13 through the three-way electromagnetic valve II 5 to be discharged, and a detailed cold water line is shown by an arrow in an attached figure 2 of the specification;
when water flowing out of the flowmeter 3 enters the water heating assembly 7 through the three-way electromagnetic valve II 5 to be heated, the temperature controller 9 controls the heating temperature of the water heating assembly 7 to the water, the fuse 8 plays a role in protecting a circuit, the heated water in the water heating assembly 7 is discharged with hot water through a hot water outlet 19 at the position of the two-way electromagnetic valve 11, and detailed lines of the hot water are indicated by arrows in the attached figure 3 of the specification.
In a second embodiment, please refer to fig. 4, the present invention provides a technical solution: the utility model provides an integrated water route board for broken wall machine, this embodiment is roughly the same with embodiment structure, and the difference lies in:
the outlet of the two-way electromagnetic valve 11 is connected with the inlet of the two-way electromagnetic valve 12 through a pipeline, the outlet of the two-way electromagnetic valve 12 is connected with one end of a middle connecting pipeline, the other end of the middle connecting pipeline is connected with the other inlet of the three-way electromagnetic valve 13, the two-way electromagnetic valve 11 and the three-way electromagnetic valve 13 are connected through the middle connecting pipeline, therefore, a cold water line and a hot water line are communicated, the flow direction of water flow or steam is limited by the two-way electromagnetic valve 12, and backflow is avoided.
The side face of the second three-way electromagnetic valve 5 is connected with an exhaust port, the exhaust port is connected with an inlet of the first one-way valve 4 through a pipeline, an outlet of the first one-way valve 4 is connected with an air inlet of the second water tank 17, evaporation for high-temperature sterilization in the second three-way electromagnetic valve 5 can be discharged into the second water tank 17 through the exhaust port, a loop of high-temperature sterilization steam in the second water tank 17 is formed, sterilization in the second water tank 17 is facilitated, and the first one-way valve 4 is used for limiting the flow direction of the steam and avoiding backflow.
When the system is used, the diaphragm pump 2 works, water in the water tank I16 or the water tank II 17 is introduced through the three-way electromagnetic valve I1, the water source is pumped into the flowmeter 3 by the diaphragm pump 2 to perform water quantity statistics, water flowing out of the flowmeter 3 enters the water heating assembly 7 through the three-way electromagnetic valve II 5 to be heated, the temperature controller 9 controls the water heating assembly 7 to continuously heat the water to form high-temperature steam, the high-temperature steam enters the middle connecting pipeline through the two-way electromagnetic valve 11 and the one-way valve II 12 and then enters the three-way electromagnetic valve II 5 through the three-way electromagnetic valve III 13, the high-temperature steam is discharged from the exhaust port and enters the water tank II 17 through the one-way valve I4, then enters the three-way electromagnetic valve I1 and the diaphragm pump 2 from the water tank II 17 and then enters the three-way electromagnetic valve II 5 through the flowmeter 3 to form a high-temperature steam loop, the integrated water channel is comprehensively sterilized, and detailed lines are indicated by arrows in an attached drawing 4 of the specification.
In a third embodiment, please refer to fig. 4-6, the present invention provides a technical solution: the utility model provides an integrated water route board for broken wall machine, this embodiment is roughly the same with two structures of embodiment, and the difference lies in:
the water-saving type water heater further comprises a third check valve 14 and a working container 15, the side surface of the middle connecting pipeline is connected with an inlet of the third check valve 14, an outlet of the third check valve 14 is connected with the working container 15 through a pipeline, discharged hot water or cold water can enter the working container 15 for use, and water in the working container 15 is prevented from flowing back to the middle connecting pipeline through the third check valve 14.
When the system is used, the diaphragm pump 2 works, water in the water tank I16 or the water tank II 17 is introduced through the three-way electromagnetic valve I1, a water source is pumped into the flowmeter 3 by the diaphragm pump 2 to be counted, then the water flows to the three-way electromagnetic valve III 13 through the three-way electromagnetic valve II 5 and then enters the intermediate pipeline, the water enters the working container 15 through the one-way valve III 14, and the detailed cold water line using the working container 15 is shown in an arrow in an attached figure 5 of the specification;
when water flowing out of the flowmeter 3 enters the water heating assembly 7 through the three-way electromagnetic valve II 5 to be heated, the temperature controller 9 controls the heating temperature of the water heating assembly 7 to the water, the fuse 8 plays a role in protecting a circuit, the heated water in the water heating assembly 7 passes through the two-way electromagnetic valve 11, then enters the middle connecting pipeline through the one-way valve II 12, then enters the working container 15 through the one-way valve III 14, and a detailed hot water line using the working container 15 is shown in an arrow in the attached figure 6 of the specification.
The sterilization operation of this example was the same as that of the example;
it is worth noting that the water heating assembly 7 in the above embodiment adopts a die-casting aluminum heating body water heater or a steam generator, the input ends of the three-way electromagnetic valve 1, the diaphragm pump 2, the flow meter 3, the three-way electromagnetic valve 5, the two-way electromagnetic valve 11 and the three-way electromagnetic valve 13 are all electrically connected with the output end of an external power supply through an external PLC controller, and the external PLC controller controls the three-way electromagnetic valve 1, the diaphragm pump 2, the flow meter 3, the three-way electromagnetic valve 5, the two-way electromagnetic valve 11 and the three-way electromagnetic valve 13 to work by adopting a method commonly used in the prior art;
the output ends of the first negative temperature coefficient thermistor 6, the second negative temperature coefficient thermistor 10 and the fuse 8 are electrically connected with the input end of the temperature controller 9, the fuse 8 is electrically connected with an external power supply, the output end of the temperature controller 9 is electrically connected with the input end of the water heating component 7, and the temperature controller 9 controls the water heating component 7 to work by adopting a common method in the prior art, so that the description is omitted.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (6)
1. The integrated waterway plate is applied to a wall breaking machine and is characterized by comprising a diaphragm pump (2), wherein an inlet of the diaphragm pump (2) is connected with an outlet of a three-way electromagnetic valve I (1) through a pipeline, an outlet of the diaphragm pump (2) is connected with an inlet of a flowmeter (3) through a pipeline, an outlet of the flowmeter (3) is connected with an inlet of a three-way electromagnetic valve II (5) through a pipeline, an outlet of the three-way electromagnetic valve II (5) is connected with an inlet of a three-way electromagnetic valve III (13) through a pipeline, and an outlet of the three-way electromagnetic valve III (13) is provided with a cold water outlet (18);
another export of two three way solenoid valve (5) passes through the import of pipe connection water heating element (7), install fuse (8) and temperature controller (9) on water heating element (7), the import of pipe connection two way solenoid valve (11) is passed through in the export of water heating element (7), the export of two way solenoid valve (11) is provided with hot water export (19).
2. The integrated waterway plate applied to the wall breaking machine according to claim 1, wherein: and the outlet of the three-way electromagnetic valve II (5) connected with the water heating component (7) is provided with a first negative temperature coefficient thermistor (6), and the inlet of the two-way electromagnetic valve (11) is provided with a second negative temperature coefficient thermistor (10).
3. The integrated waterway plate applied to a wall breaking machine according to claim 1, wherein: one inlet of the first three-way electromagnetic valve (1) is connected with the water outlet of the first water tank (16) through a pipeline, and the other inlet of the first three-way electromagnetic valve (1) is connected with the water outlet of the second water tank (17) through a pipeline.
4. The integrated waterway plate applied to the wall breaking machine according to claim 3, wherein: the outlet of the two-way electromagnetic valve (11) is connected with the inlet of a one-way valve II (12) through a pipeline, the outlet of the one-way valve II (12) is connected with one end of a middle connecting pipeline, and the other end of the middle connecting pipeline is connected with the other inlet of a three-way electromagnetic valve III (13).
5. The integrated waterway plate applied to a wall breaking machine according to claim 4, wherein: the side surface of the second three-way electromagnetic valve (5) is connected with an exhaust port, the exhaust port is connected with an inlet of the first one-way valve (4) through a pipeline, and an outlet of the first one-way valve (4) is connected with an air inlet of the second water tank (17).
6. The integrated waterway plate applied to the wall breaking machine according to claim 4, wherein: the pipeline system is characterized by further comprising a third check valve (14) and a working container (15), wherein the side face of the middle connecting pipeline is connected with an inlet of the third check valve (14), and an outlet of the third check valve (14) is connected with the working container (15) through a pipeline.
Priority Applications (1)
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CN202221318265.2U CN218246951U (en) | 2022-05-30 | 2022-05-30 | Be applied to integrated water route board of broken wall machine |
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CN202221318265.2U CN218246951U (en) | 2022-05-30 | 2022-05-30 | Be applied to integrated water route board of broken wall machine |
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