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Water-saving valve element and fluid supply system thereof

A technology of water-saving valve and water inlet hole, applied in the direction of sliding valve, valve detail, multi-way valve, etc., can solve problems such as rough control of water temperature

Active Publication Date: 2016-11-23
安徽领克自控设备有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Under the existing technology, users can only frequently adjust the hot fluid supply temperature repeatedly in the hot fluid supply device (such as a water heater), or roughly control the outlet water temperature by roughly adjusting the mixing ratio of cold water and hot water on the valve.

Method used

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  • Water-saving valve element and fluid supply system thereof
  • Water-saving valve element and fluid supply system thereof
  • Water-saving valve element and fluid supply system thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0083] A valve device, comprising a valve device for controlling a fluid passing state when the fluid passes through, and an operating mechanism for realizing the aforementioned control by operating in its operating region, the valve device has a first fluid inlet port, a second fluid inlet port and a fluid At the outlet end, the operation area of ​​the operating mechanism is divided into a mixing degree adjustment area for adjusting the mixing degree of the first fluid and the second fluid, and a flow adjustment area for adjusting the flow rate of the fluid outlet in the mixing degree adjustment area. The mixing degree adjustment area includes necessary The fluid outlet port exits only the first fluid region of the first fluid, and the fluid outlet port exits only the second fluid region of the second fluid, and there may be a fluid outlet port exiting the mixing region of the mixed fluid of the first fluid and the second fluid The flow rate of the operating mechanism at the m...

Embodiment 2

[0091] This embodiment is similar to Embodiment 1, except that in this embodiment, the critical state is set to the stop position in the heat-only mode, and the stop position in the cooling-only mode is the closed state of the spool.

[0092] The valve device of this embodiment, and the thermal fluid supply device (such as various water heaters) etc. which have a heating system for heating the fluid in it constitute a thermal fluid supply system, the thermal fluid outlet of the thermal fluid supply device and the first valve device A fluid inlet port (hot fluid inlet port, such as a hot water inlet hole) is connected, and is controlled by the operating mechanism of the valve device (including direct control or indirect control). The hot fluid supply device turns on or off its hot fluid supply, and the hot fluid supply device There is a minimum flow rate to close its heating system. When the flow rate of the first fluid inlet port (hot fluid inlet port, such as a hot water inlet...

Embodiment 3

[0095] Such as Figure 1 to Figure 6 As shown, this embodiment is basically the same as Embodiment 1, more specifically, it is a ceramic single-handle double-connected water-saving valve core, the valve core mode has a single-heating mode and a single-cooling mode, and the control handle has an upper stop position , adjustment area and bottom stop position, the state of the spool has an open state and a closed state, when the control handle is placed at the bottom stop position of the single heat mode, the water-saving valve core is in the critical state of the single heat mode, and the control handle is placed in the only cooling mode The water-saving spool is in the closed state when it is in the stop position. From the bottom stop in the heat-only mode to the top stop in the heat-only mode is the large flow adjustment area of ​​the water-saving spool in the heat-only mode. From the bottom stop in the heat-only mode to the cooling-only mode The stop position is the small flo...

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PUM

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Abstract

The invention discloses a water-saving valve element and a fluid supply system thereof. Valve element modes include the single cooling mode and the single heating mode. Control handle placement positions include the regulating area and the lower stop position. Valve element states include the opening state and the closing state. The water-saving valve element is characterized in that when a control handle is located in the lower stop position in the single cooling mode, the water-saving valve element is in a saving state or a critical state in the single cooling mode, and when the control handle is located in the lower stop position in the single heating mode, the water-saving valve element is in the closing state; and alternately, when the control handle is located in the lower stop position in the single heating mode, the water-saving valve element is in the saving state or the critical state in the single heating mode, and when the control handle is located in the lower stop position in the single cooling mode, the water-saving valve element is in the closing state. The water-saving valve element is beneficial for saving water, can facilitate control over a fluid supply device through a valve, can particularly facilitate control over the supply temperature of hot fluid of the hot fluid supply device, and can facilitate normal use of the hot fluid supply device.

Description

technical field [0001] The invention belongs to the field of valves, in particular to the technical field of valve cores used in faucets, in particular to a single-handle double-connected water-saving valve core. Background technique [0002] As one of the most commonly used control devices in production and life, valves are used to control the state of fluid passage, such as controlling the type of fluid passing through and controlling the flow of fluid passing through. Ordinary people know and contact the most is the faucet used in daily life. According to the opening method, the faucet can usually be divided into screw type, wrench type, lifting type and induction type. The screw-type handle is opened by screwing, and when it is opened, it needs to be rotated many times to adjust the water flow through the number of turns, the more the number of turns, the greater the flow; The larger the opening angle, the greater the flow. The maximum angle is usually 90°; the lifting...

Claims

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Application Information

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IPC IPC(8): F16K11/074F16K3/08F16K3/30F16K31/60
CPCF16K11/074F16K11/22F16K3/08F16K3/30F16K31/60
Inventor 姚明行
Owner 安徽领克自控设备有限公司
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