CN212407676U

CN212407676U - Integrated water inlet valve module

Info

Publication number: CN212407676U
Application number: CN202020888800.2U
Authority: CN
Inventors: 杨迎龙
Original assignee: Zhejiang Kebo Electrical Appliances Co ltd
Current assignee: Zhejiang Kebo Electrical Appliances Co ltd
Priority date: 2020-05-23
Filing date: 2020-05-23
Publication date: 2021-01-26
Anticipated expiration: 2030-05-23

Abstract

The utility model relates to an integral type water intaking valve module, which comprises a valve body, the valve body is provided with the runner, the runner is provided with first interface, the second interface, the third interface, the fourth interface, the fifth interface, the sixth interface, the seventh interface, first electromagnetic component, the second electromagnetic component, third electromagnetic component and fourth electromagnetic component, the break-make of runner between first electromagnetic component control first interface and the seventh interface, the break-make of runner between second electromagnetic component control seventh interface and third interface and the fifth interface, the break-make of runner between third electromagnetic component control sixth interface and third interface and the fifth interface, the break-make of runner between fourth electromagnetic component control sixth interface and second interface and the fourth interface. Adopt above-mentioned scheme, the utility model provides a reduce integral type water intaking valve module of adapter quantity and pipeline length to improve the packaging efficiency, reduce risk of leaking and manufacturing cost.

Description

Integrated water inlet valve module

Technical Field

The utility model relates to a water treatment facilities field, concretely relates to integral type water intaking valve module.

Background

The water treatment equipment is special equipment for removing some substances which are not needed for production and life in water by various physical and chemical means, namely purifying the water.

Among present water treatment facilities, can use a plurality of solenoid valves to control the break-make of water route branch usually, however, often different while is relative with the equipment interface position that corresponds in the import and the export of installation solenoid valve, thereby needs the cooperation adapter to adjust interface position and orientation and realize connecting.

However, excessive use of adapters has certain disadvantages, which complicates the assembly process of the equipment, causes the assembly efficiency to decrease and the error rate to increase, and secondly increases the number of pipe joints of the equipment, so that the risk of water leakage of the product increases, and at the same time, the pipe joint length increases, which increases the manufacturing cost.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a reduce integral type water intaking valve module of adapter quantity and pipeline length to improve the packaging efficiency, reduce risk of leaking and manufacturing cost.

In order to achieve the above purpose, the utility model provides a following technical scheme: including the valve body, its characterized in that: the valve body is provided with a flow passage, the flow passage is provided with a first interface, a second interface, a third interface, a fourth interface, a fifth interface, a sixth interface, a seventh interface, a first electromagnetic assembly, a second electromagnetic assembly, a third electromagnetic assembly and a fourth electromagnetic assembly, the first electromagnetic assembly controls the on-off of the flow passage between the first interface and the seventh interface, the second electromagnetic assembly controls the on-off of the flow passage between the third interface and the fifth interface and between the fifth interface and the seventh interface, the third electromagnetic assembly controls the on-off of the flow passage between the sixth interface and the third interface and between the fifth interface and the fourth electromagnetic assembly controls the on-off of the flow passage between the sixth interface and the second interface and between the sixth interface and the fourth interface.

Through adopting above-mentioned technical scheme, for satisfying the equipment demand, concentrate on unified valve body with each interface and electromagnetic component, and can save adapter and the pipeline that is used for connecting between the interface through actual position adjustment height and orientation, and the produced wind direction that leaks of too much hookup location to improve packaging efficiency, reduce risk and the manufacturing cost of leaking, let the structure more compact simultaneously, the volume is more retrencied.

The utility model discloses further set up to: the valve body comprises fixed last valve body and lower valve body mutually, first interface, second interface, third interface, fourth interface and fifth interface set up in last valve body, sixth interface, seventh interface, first electromagnetic assembly, second electromagnetic assembly, third electromagnetic assembly and fourth electromagnetic assembly set up in lower valve body.

Through adopting above-mentioned technical scheme, arrange five interfaces in last valve body, two interfaces and four electromagnetic component arrange in last valve body, according to equipment actual conditions, make arranging of interface and electromagnetic component more reasonable, accurate and equipment counterpoint, reduce adapter quantity and pipeline length, improve packaging efficiency, reduce the risk of leaking and manufacturing cost, in addition, divide into valve body and lower valve body with the valve body, can effectively reduce the processing degree of difficulty, reduce the processing cost.

The utility model discloses further set up to: the flow channel comprises a first vertical pipeline, a second vertical pipeline, a first horizontal pipeline and a second horizontal pipeline, the first interface is positioned at the upper end of the first vertical pipeline, the lower end of the first vertical pipeline is communicated with the first horizontal pipeline, the first horizontal pipeline is communicated with the seventh interface, and the first electromagnetic assembly is positioned at the joint of the first vertical pipeline and the first horizontal pipeline and controls the on-off of the joint; the third interface and the fifth interface are communicated with the first horizontal pipeline, the upper end of the second vertical pipeline is communicated with the second horizontal pipeline, the lower end of the second vertical pipeline is communicated with the first horizontal pipeline, and the second electromagnetic assembly is located at the joint of the second vertical pipeline and the first horizontal pipeline and controls the on-off of the joint.

By adopting the technical scheme, the first vertical pipeline, the second vertical pipeline, the first horizontal pipeline and the second horizontal pipeline are combined, so that the on-off of the flow channel between the first interface and the seventh interface is realized when the first electromagnetic assembly acts, the on-off of the flow channel between the third interface and the fifth interface and the on-off of the flow channel between the seventh interface are realized when the second electromagnetic assembly acts, the arrangement is more reasonable, and the structure is more compact.

The utility model discloses further set up to: the flow channel comprises a third vertical pipeline, a fourth vertical pipeline and a third horizontal pipeline, the third horizontal pipeline is communicated with a sixth interface, the upper end of the third vertical pipeline is communicated with the second horizontal pipeline, the lower end of the third vertical pipeline is communicated with the third horizontal pipeline, and the third electromagnetic assembly is positioned at the joint of the third vertical pipeline and the third horizontal pipeline and controls the connection and disconnection of the third vertical pipeline and the third horizontal pipeline; the upper end of the fourth vertical pipeline is respectively communicated with the second interface and the fourth interface, the lower end of the fourth vertical pipeline is communicated with the third horizontal pipeline, and the fourth electromagnetic assembly is positioned at the joint of the fourth vertical pipeline and the third horizontal pipeline and controls the on-off of the joint.

By adopting the technical scheme, the third vertical pipeline, the fourth vertical pipeline and the third horizontal pipeline are combined, so that the connection and disconnection of the flow channel between the sixth interface and the third interface as well as between the sixth interface and the fifth interface are realized when the third electromagnetic assembly acts, the connection and disconnection of the flow channel between the sixth interface and the second interface as well as between the sixth interface and the fourth interface are realized when the fourth electromagnetic assembly acts, the arrangement is more reasonable, and the structure is more compact.

The utility model discloses further set up to: first vertical pipeline, second vertical pipeline, third vertical pipeline and fourth vertical pipeline all including the pipeline upper portion that is fixed in the upper valve body and be fixed in the pipeline lower part of valve body down, pipeline upper portion stretch into in the pipeline lower part and the periphery and pipeline lower part inner periphery be sealed cooperation.

Through adopting above-mentioned technical scheme, separate vertical pipeline for two parts, on the one hand, improve the counterpoint accuracy and the assembly stability of valve body and lower valve body, on the other hand, the pipeline upper portion that is located the top stretches into the pipeline lower part that is located the below and further reduces the possibility of leaking.

The utility model discloses further set up to: the first interface, the second interface and the third interface are positioned on the left side of the upper valve body and face the left direction, the fourth interface is positioned on the rear side of the upper valve body and face the rear direction, the fifth interface is positioned on the right side of the upper valve body and faces downwards through bending, the sixth interface is positioned on the left side of the lower valve body and faces downwards through bending, and the seventh interface is positioned on the right side of the upper valve body and faces downwards through bending.

Through adopting above-mentioned technical scheme, arrange by the aforesaid and make the interface arrange with more reasonable mode, further reduce adapter quantity and pipeline length, improve the packaging efficiency, reduce the risk of leaking and manufacturing cost.

The utility model discloses further set up to: and a one-way valve assembly which only allows fluid to enter is arranged at the second interface.

By adopting the technical scheme, the one-way valve assembly is additionally arranged to realize one-way flow of the second interface, so that fluid cannot flow out of the second interface, and the requirement of equipment is better met.

Drawings

FIG. 1 is a first top perspective view of an embodiment of the present invention;

fig. 2 is a second top perspective view of the embodiment of the present invention;

FIG. 3 is a first bottom perspective view of an embodiment of the present invention;

FIG. 4 is an internal structure view of the lower valve body according to the embodiment of the present invention;

FIG. 5 is an internal structure view of the upper valve body in the embodiment of the present invention;

fig. 6 is a schematic structural view of the upper first vertical pipe in the embodiment of the present invention.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1-6, the present invention discloses an integrated water inlet valve module, which comprises a valve body, wherein the valve body is provided with a flow channel, the flow channel is provided with a first interface 11, a second interface 12, a third interface 13, a fourth interface 14, a fifth interface 15, a sixth interface 21, a seventh interface 22, a first electromagnetic assembly 23, a second electromagnetic assembly 24, a third electromagnetic assembly 25 and a fourth electromagnetic assembly 26, the first electromagnetic assembly 23 controls the on-off of the flow channel between the first interface 11 and the seventh interface 22, the second electromagnetic assembly 24 controls the on-off of the flow channel between the third interface 13 and the fifth interface 15 and the seventh interface 22, the third electromagnetic assembly 25 controls the on-off of the flow channel between the sixth interface 21 and the third interface 13 and the fifth interface 15, the fourth electromagnetic assembly 26 controls the on-off of the flow channel between the sixth interface 21 and the second interface 12 and the fourth interface 14, in order to meet the requirement of equipment, all the interfaces and the electromagnetic assemblies are concentrated on the unified valve body, the height and the orientation can be adjusted through the actual position, an adapter and a pipeline which are used for connection between the interfaces and the water leakage wind direction generated by excessive connection positions are omitted, therefore, the assembly efficiency is improved, the water leakage risk and the manufacturing cost are reduced, the structure is more compact, and the size is more simplified.

The valve body comprises fixed last valve body 1 and lower valve body 2 mutually, first interface 11, second interface 12, third interface 13, fourth interface 14 and fifth interface 15 set up in last valve body 1, sixth interface 21, seventh interface 22, first electromagnetic component 23, second electromagnetic component 24, third electromagnetic component 25 and fourth electromagnetic component 26 set up in lower valve body 2, arrange five interfaces in last valve body 1, two interfaces and four electromagnetic components arrange in last valve body 1, according to the equipment actual conditions, make the arranging of interfaces and electromagnetic component more reasonable, accurate and equipment counterpoint, reduce adapter quantity and pipeline length, improve the packaging efficiency, reduce the risk of leaking and manufacturing cost, in addition, divide into valve body 1 and lower valve body 2 with the valve body, can effectively reduce the processing degree of difficulty, reduce the processing cost.

The flow channel comprises a first vertical pipeline 3, a second vertical pipeline 4, a first horizontal pipeline 27 and a second horizontal pipeline 16, the first connector 11 is positioned at the upper end of the first vertical pipeline 3, the lower end of the first vertical pipeline 3 is communicated with the first horizontal pipeline 27, the first horizontal pipeline 27 is communicated with the seventh connector 22, and the first electromagnetic assembly 23 is positioned at the joint of the first vertical pipeline 3 and the first horizontal pipeline 27 and controls the on-off of the joint; the third interface 13 and the fifth interface 15 are communicated with the first horizontal pipeline 27, the upper end of the second vertical pipeline 4 is communicated with the second horizontal pipeline 16, the lower end of the second vertical pipeline is communicated with the first horizontal pipeline 27, the second electromagnetic assembly 24 is positioned at the joint of the second vertical pipeline 4 and the first horizontal pipeline 27 and controls the on-off of the joint, the combination of the first vertical pipeline 3, the second vertical pipeline 4, the first horizontal pipeline 27 and the second horizontal pipeline 16 ensures that the on-off of a flow channel between the first interface 11 and the seventh interface 22 is realized when the first electromagnetic assembly 23 acts, the on-off of the flow channel between the third interface 13 and the fifth interface 15 and the seventh interface 22 is realized when the second electromagnetic assembly 24 acts, the arrangement is more reasonable, the structure is more compact, in fig. 4, the position a is the joint of the first vertical pipeline 3 and the first horizontal pipeline 27, and the position b is the joint of the second vertical pipeline 4 and the first horizontal pipeline 27.

The flow channel comprises a third vertical pipeline 5, a fourth vertical pipeline 6 and a third horizontal pipeline 28, the third horizontal pipeline 28 is communicated with a sixth connector 21, the upper end of the third vertical pipeline 5 is communicated with the second horizontal pipeline 16, the lower end of the third vertical pipeline is communicated with the third horizontal pipeline 28, and a third electromagnetic assembly 25 is positioned at the joint of the third vertical pipeline 5 and the third horizontal pipeline 28 and controls the on-off state of the joint; the upper end of the fourth vertical pipeline 6 is respectively communicated with the second connector 12 and the fourth connector 14, the lower end of the fourth vertical pipeline is communicated with the third horizontal pipeline 28, the fourth electromagnetic assembly 26 is positioned at the joint of the fourth vertical pipeline 6 and the third horizontal pipeline 28 and controls the connection and disconnection of the joint, and the connection and disconnection of the flow channel between the sixth connector 21 and the third connector 13 and between the sixth connector 21 and the fourth connector 14 are realized by the combination of the third vertical pipeline 5, the fourth vertical pipeline 6 and the third horizontal pipeline 28 when the third electromagnetic assembly 25 acts, so that the connection and disconnection of the flow channel between the sixth connector 21 and the second connector 12 and between the fourth connector 14 are realized when the fourth electromagnetic assembly 26 acts, the arrangement is more reasonable, and the structure is more compact.

First vertical pipeline 3, second vertical pipeline 4, third vertical pipeline 5 and fourth vertical pipeline 6 all are including being fixed in the pipeline upper portion 31 of last valve body 1 and being fixed in the pipeline lower part 32 of valve body 2 down, pipeline upper portion 31 stretches into in the pipeline lower part 32 and the periphery is sealed cooperation with the interior week of pipeline lower part 32, separate vertical pipeline for two parts, on the one hand, improve the counterpoint accuracy and the assembly stability of going up valve body 1 and lower valve body 2, on the other hand, the pipeline upper portion 31 that is located the top stretches into the pipeline lower part 32 that is located the below and further reduces the possibility of leaking, be provided with sealing washer 33 and extrusion seal ring 33's sealed step 34 between pipeline upper portion 31 periphery and the interior week of pipeline lower part 32.

The first connector 11, the second connector 12, the third connector 13 is located the left side of the upper valve body 1 and faces the left side, the fourth connector 14 is located the rear side of the upper valve body 1 and faces the rear side, the fifth connector 15 is located the right side of the upper valve body 1 and faces downward through bending, the sixth connector 21 is located the left side of the lower valve body 2 and faces downward through bending, the seventh connector 22 is located the right side of the upper valve body 1 and faces downward through bending, the connectors can be arranged in a more reasonable mode through the arrangement, the number of adapters and the length of pipelines are further reduced, the assembly efficiency is improved, and the water leakage risk and the manufacturing cost are reduced.

The second connector 12 is provided with a check valve assembly which only allows fluid to enter, the check valve assembly is additionally arranged to realize one-way flow of the second connector 12, so that the fluid cannot flow out from the second connector 12, the requirement of equipment is better met, and the check valve assembly is of an existing structure and is not detailed.

When the valve body is arranged on equipment, the first interface 11 is used as a water inlet, the first electromagnetic assembly 23 opens the joint, and water is discharged from the seventh interface 22; the third interface 13 is used as a water inlet, the third interface 13 is communicated with the fifth interface 15 at the same time, the third electromagnetic assembly 25 opens the joint, and water is discharged from the seventh interface 22; the sixth interface 21 is used as a water inlet, the third electromagnetic assembly 25 opens the joint, and water is discharged from the third interface and the fifth interface 15; the sixth port 21 serves as a water inlet, and the fourth electromagnetic assembly 26 opens the junction to discharge water from the fourth port 14.

In addition, the first electromagnetic assembly 23, the second electromagnetic assembly 24, the third electromagnetic assembly 25 and the fourth electromagnetic assembly 26 each include an electromagnetic valve body 231, a coil 232, an iron core 233, a spring 234 and a diaphragm 235, an outer ring channel 236 and an inner ring channel 237 respectively connected to an inlet and an outlet are disposed in the electromagnetic valve body 231, a sealing port 238 communicating the outer ring channel 236 and the inner ring channel 237 is disposed at a position close to the iron core 233, when the coil 232 is energized, the coil 232 attracts the iron core 233 to move, so that the diaphragm 235 mounted on the iron core 233 is far away from the sealing port 238, and the inlet and the outlet are in a communicating state; when the coil 232 is de-energized, the iron core 233 is reset towards the sealing port 238 under the action of the spring 234, and the diaphragm 235 is in sealing fit with the sealing port 238 to cut off the inlet and the outlet.

Claims

1. An integral water inlet valve module, comprising a valve body, characterized in that: the valve body is provided with a flow passage, the flow passage is provided with a first interface, a second interface, a third interface, a fourth interface, a fifth interface, a sixth interface, a seventh interface, a first electromagnetic assembly, a second electromagnetic assembly, a third electromagnetic assembly and a fourth electromagnetic assembly, the first electromagnetic assembly controls the on-off of the flow passage between the first interface and the seventh interface, the second electromagnetic assembly controls the on-off of the flow passage between the third interface and the fifth interface and between the fifth interface and the seventh interface, the third electromagnetic assembly controls the on-off of the flow passage between the sixth interface and the third interface and between the fifth interface and the fourth electromagnetic assembly controls the on-off of the flow passage between the sixth interface and the second interface and between the sixth interface and the fourth interface.

2. The integrated water inlet valve module of claim 1, wherein: the valve body comprises fixed last valve body and lower valve body mutually, first interface, second interface, third interface, fourth interface and fifth interface set up in last valve body, sixth interface, seventh interface, first electromagnetic assembly, second electromagnetic assembly, third electromagnetic assembly and fourth electromagnetic assembly set up in lower valve body.

3. The integrated water inlet valve module of claim 2, wherein: the flow channel comprises a first vertical pipeline, a second vertical pipeline, a first horizontal pipeline and a second horizontal pipeline, the first interface is positioned at the upper end of the first vertical pipeline, the lower end of the first vertical pipeline is communicated with the first horizontal pipeline, the first horizontal pipeline is communicated with the seventh interface, and the first electromagnetic assembly is positioned at the joint of the first vertical pipeline and the first horizontal pipeline and controls the on-off of the joint; the third interface and the fifth interface are communicated with the first horizontal pipeline, the upper end of the second vertical pipeline is communicated with the second horizontal pipeline, the lower end of the second vertical pipeline is communicated with the first horizontal pipeline, and the second electromagnetic assembly is located at the joint of the second vertical pipeline and the first horizontal pipeline and controls the on-off of the joint.

4. The integrated water inlet valve module of claim 3, wherein: the flow channel comprises a third vertical pipeline, a fourth vertical pipeline and a third horizontal pipeline, the third horizontal pipeline is communicated with a sixth interface, the upper end of the third vertical pipeline is communicated with the second horizontal pipeline, the lower end of the third vertical pipeline is communicated with the third horizontal pipeline, and the third electromagnetic assembly is positioned at the joint of the third vertical pipeline and the third horizontal pipeline and controls the connection and disconnection of the third vertical pipeline and the third horizontal pipeline; the upper end of the fourth vertical pipeline is respectively communicated with the second interface and the fourth interface, the lower end of the fourth vertical pipeline is communicated with the third horizontal pipeline, and the fourth electromagnetic assembly is positioned at the joint of the fourth vertical pipeline and the third horizontal pipeline and controls the on-off of the joint.

5. The integrated water inlet valve module of claim 4, wherein: first vertical pipeline, second vertical pipeline, third vertical pipeline and fourth vertical pipeline all including the pipeline upper portion that is fixed in the upper valve body and be fixed in the pipeline lower part of valve body down, pipeline upper portion stretch into in the pipeline lower part and the periphery and pipeline lower part inner periphery be sealed cooperation.

6. The integrated water inlet valve module of claim 2, wherein: the first interface, the second interface and the third interface are positioned on the left side of the upper valve body and face the left direction, the fourth interface is positioned on the rear side of the upper valve body and face the rear direction, the fifth interface is positioned on the right side of the upper valve body and faces downwards through bending, the sixth interface is positioned on the left side of the lower valve body and faces downwards through bending, and the seventh interface is positioned on the right side of the upper valve body and faces downwards through bending.

7. The integrated water inlet valve module of claim 1, wherein: and a one-way valve assembly which only allows fluid to enter is arranged at the second interface.