阅读说明：本技术 大流量分集水器 (Large-flow water dividing and collecting device ) 是由 黄靖宇 于 2021-09-06 设计创作，主要内容包括：本发明提供了一种大流量分集水器,包括分水阀和集水阀；所述分水阀包括主管和支管,主管上旁通设有多路支管；所诉集水阀包括主管和支管,主管上旁通设有多路支管；分水阀主管和集水阀主管的外部均包裹有保温层；每路分水阀支管的出口端均连接有手动阀,所述集水阀每路支管的入口端均连接有电动阀。本发明的该分集水器具有大流量、节能、开关灵敏、性能稳定的特点,相对现有分集水器,该分集水器流量更大、开关更灵敏、能耗更低、介质温度范围更宽,特别实用于水循环两联供系统。(The invention provides a large-flow water distributing and collecting device, which comprises a water distributing valve and a water collecting valve; the shunt valve comprises a main pipe and branch pipes, and a plurality of branch pipes are arranged on the main pipe in a bypass mode; the water collecting valve comprises a main pipe and branch pipes, wherein the main pipe is provided with a plurality of branch pipes in a bypass way; the outer parts of the main pipe of the water diversion valve and the main pipe of the water collection valve are wrapped with heat-insulating layers; the outlet end of each branch pipe of the water distribution valve is connected with a manual valve, and the inlet end of each branch pipe of the water collection valve is connected with an electric valve. The water dividing and collecting device has the characteristics of large flow, energy conservation, sensitive switching and stable performance, has larger flow, more sensitive switching, lower energy consumption and wider medium temperature range compared with the existing water dividing and collecting device, and is particularly applied to a water circulation two-combined supply system.)

1. A large-traffic branch water collector, includes shunt valve and water collecting valve, its characterized in that:

the shunt valve comprises a main pipe and branch pipes, and a plurality of branch pipes are arranged on the main pipe of the shunt valve in a bypass mode;

the water collecting valve comprises a main pipe and branch pipes, and a plurality of branch pipes are arranged on the main pipe of the water collecting valve in a bypass mode;

the outer parts of the main pipe of the water diversion valve and the main pipe of the water collection valve are wrapped with insulating layers;

the outlet end of each branch pipe of the water distribution valve is connected with a manual valve, and the inlet end of each branch pipe of the water collection valve is connected with an electric valve.

2. The mass flow water collector according to claim 1, characterized in that: the diameter of the cavity of the main pipe of the shunt valve and the main pipe of the water collecting valve is not less than 32 mm.

3. The mass flow water collector according to claim 1, characterized in that: the number of the branch pipes of the water diversion valve and the branch pipes of the water collection valve is not less than three.

4. The mass flow water collector according to claim 1, characterized in that: the heat-insulating layer is made of a material with low heat conductivity.

Technical Field

The invention belongs to the technical field of water distribution and collection equipment of a water circulation temperature adjusting system, and particularly relates to a high-flow water distribution and collection device.

Background

At present, a water distributing and collecting device in a water circulation temperature regulating system controls a valve core to reciprocate for an electric heating actuator, and has the following defects: the valve core has short stroke and small flow, the continuous heating energy consumption of the electric heating actuator is high when the electric heating actuator works, the switching action time is long, and the low-temperature working condition performance is poor.

Disclosure of Invention

Aiming at the technical problems, the invention provides the large-flow water dividing and collecting device which has the advantages of larger flow, more sensitive opening and closing, lower energy consumption and wider medium temperature range compared with the existing water dividing and collecting device, and is particularly applied to a water circulation two-combined-supply system.

The invention is realized by the following technical scheme:

a high-flow water dividing and collecting device comprises a water dividing valve and a water collecting valve;

the shunt valve comprises a main pipe and branch pipes, and a plurality of branch pipes are arranged on the main pipe of the shunt valve in a bypass mode;

the water collecting valve comprises a main pipe and branch pipes, and a plurality of branch pipes are arranged on the main pipe of the water collecting valve in a bypass mode;

the outer parts of the main pipe of the water diversion valve and the main pipe of the water collection valve are wrapped with insulating layers;

the outlet end of each branch pipe of the water distribution valve is connected with a manual valve, and the inlet end of each branch pipe of the water collection valve is connected with an electric valve; during debugging, controlling the opening of a manual valve on a branch pipe of the shunt valve according to the flow required by the temperature regulation tail end; when the temperature control device operates, the switch of the electric valve on the branch pipe of the water collecting valve is controlled according to the temperature required by the temperature control area.

Further, the water distribution valve and the water collection valve are made of metal materials or plastic materials.

Further limiting, the diameters of the cavities of the main pipe of the shunt valve and the main pipe of the water collecting valve are not less than 32 mm.

Further limiting, the number of the branch pipes of the water diversion valve and the branch pipes of the water collection valve is not less than three.

Further, the heat-insulating layer is made of materials with low heat conductivity, such as polyurethane, polyphenyl or rubber and plastic.

Further limiting, the main pipe of the shunt valve and the main pipe of the water collecting valve are respectively provided with a detection instrument, so that medium parameters can be conveniently checked.

Further limited, the detecting instrument is one of a thermometer, a pressure gauge and a temperature and pressure body surface.

Further inject, install discharge valve respectively on the shunt valve is responsible for and the collecting valve is responsible for, discharge valve is automatic discharge valve or manual discharge valve, realizes the system exhaust through discharge valve, makes the high-efficient operation of system.

Further limiting, the manual valve and the electric valve are both connected with adapters, and the manual valve and the electric valve are respectively communicated with a medium pipeline at the temperature adjusting tail end through the adapters.

Further defined, the interface of the adapter is no less than 12 mm.

According to the technical scheme, the large-flow water dividing and collecting device provided by the invention has the beneficial effects that: the water dividing and collecting device has the characteristics of large flow, energy conservation, sensitive switching and stable performance; compared with the existing water dividing and collecting device, the water dividing and collecting device has the advantages of larger flow, more sensitive switch, lower energy consumption and wider medium temperature range, and is particularly suitable for a water circulation two-combined-supply system.

Drawings

In order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings that are needed in the detailed description of the invention or the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

FIG. 1 is a schematic view of the shunt valve of the present invention.

Fig. 2 is a schematic structural view of a water collection valve according to the present invention.

FIG. 3 is a schematic diagram of the principle of the present invention in a water circulation temperature regulating system.

In the drawings: 1-a main pipe of a water diversion valve, 2-a branch pipe of the water diversion valve, 3-a main pipe of a water collection valve, 4-a branch pipe of the water collection valve, 5-a heat preservation layer, 6-a manual valve, 7-an electric valve, 8-a temperature adjusting terminal, 9-a detection instrument, 10-an exhaust valve, 11-an adapter, 12-a heat source, 13-a floor heating coil, 14-a fan coil, 15-a radiator and 16-a controller.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1 and 2, a high-flow water dividing and collecting device comprises a water dividing valve and a water collecting valve;

the shunt valve comprises a main pipe 1 and branch pipes 2, and the main pipe 1 of the shunt valve is provided with a plurality of branch pipes 2 in a bypass way;

the water collecting valve comprises a main pipe 3 and branch pipes 4, and the main pipe 3 of the water collecting valve is provided with a plurality of branch pipes 4 in a bypass way;

the main water distribution valve pipe 1 and the main water collection valve pipe 3 are respectively provided with a detection instrument 9, so that medium parameters can be conveniently checked; the detection instrument 9 is one of a thermometer, a pressure gauge and a temperature and pressure integrated gauge;

exhaust valves 10 are respectively arranged on the main water diversion valve pipe 1 and the main water collection valve pipe 3, the exhaust valves 10 are automatic exhaust valves or manual exhaust valves, and exhaust of the system is achieved through the exhaust valves 10, so that the system can run efficiently;

the outer parts of the main water diversion valve pipe 1 and the main water collection valve pipe 3 are wrapped with insulating layers 5; the heat-insulating layer 5 is made of a material with low heat conductivity, such as polyurethane, polyphenyl or a rubber plastic material;

the outlet end of each branch pipe 2 of the water distribution valve is connected with a manual valve 6, and the inlet end of each branch pipe 4 of the water collection valve is connected with an electric valve 7; during debugging, the opening of the manual valve 6 on the branch pipe 2 of the shunt valve is controlled according to the flow required by the temperature regulation tail end 8; when the temperature control device operates, the switch of the electric valve 7 on the water collecting valve branch pipe 4 is controlled according to the temperature required by the temperature control area; specifically, the electrically operated valve 7 is externally connected with a controller 16;

an adapter 11 is connected to each of the manual valve 6 and the electric valve 7, and the manual valve 6 and the electric valve 7 are respectively communicated with a medium pipeline at the temperature adjusting end through the adapter 11.

In this embodiment, the water diversion valve and the water collection valve are made of metal materials or plastic materials.

In this embodiment, the diameters of the cavities of the main pipe 1 of the shunt valve and the main pipe 3 of the water collecting valve are not less than 32 mm.

In this embodiment, the number of the branch pipes 2 of the shunt valve and the branch pipes 4 of the catchment valve is not less than three.

In this embodiment, the interface of the adapter 11 is not smaller than 12 mm.

In this embodiment, the heat source may be a wall-mounted furnace, a heat pump, or solar energy; the temperature adjusting terminal 8 can be a floor heating coil 13, a fan coil 14 and a radiator 15.

The working principle of the embodiment is as follows: as shown in fig. 3, in the water circulation temperature regulating system, a main shunt valve pipe 1 and a main shunt valve pipe 3 are respectively connected with a medium circulation outlet and a medium circulation outlet of a heat source 12, a branch shunt valve pipe 2 and a branch shunt valve pipe 4 are connected with a temperature regulating terminal 8, so that a medium generated by the heat source 12 sequentially flows through the shunt valve, the temperature regulating terminal 8 and a water collecting valve and then returns to the heat source 12; specifically, the medium provided by the heat source 12 is divided by the water dividing valve and then flows into each path of temperature adjusting terminal 8 through each manual valve 6, the medium exchanges heat in the temperature adjusting terminal 8 and then flows back to the water collecting valve branch pipe 4, the medium flows into the water collecting valve through the electric valve 7, the water collecting valve converges the medium flowing back into the heat source 12, and the medium sequentially passes through the heat source 12, the water dividing valve, the temperature adjusting terminal 8 and the water collecting valve and then returns to the heat source 12, and the circulation is repeated. The water dividing and collecting device has the characteristics of large flow, energy conservation, sensitive switching and stable performance; compared with the existing water dividing and collecting device, the water dividing valve main pipe 1 and the water collecting valve main pipe 3 have larger cavities, more sensitive opening and closing, lower energy consumption and wider medium temperature range, and are particularly applicable to a water circulation two-combined-supply system.