CN207365154U - A kind of heating system water route - Google Patents

Abstract

The utility model discloses a kind of heating system water route, including absorption heating group, user needs hot group, inlet channel, outlet conduit, control valve, solar thermal collector and precipitation component, the absorption heating group needs heat group to form system heat supply water route by the connection of inlet channel and outlet conduit with user, the outlet conduit exit is provided with the first temperature sensor, outlet conduit is into being provided with second temperature sensor at access customer accumulation of heat group, told outlet conduit connects the first water pump, the right side outlet conduit of first water pump is divided into first branch pipeline and the second branch pipeline, shown first branch pipeline is internally provided with heating element, the inlet channel needs heat group lower end to be provided with the second valve in user, second valve lower end inlet channel is connected with precipitation component.The heating system water route, is had the advantages that reasonable utilization of the energy, again raising inlet channel service life and cleaning efficiency, can be used with popularity.

Description

A kind of heating system water route

Technical field

The utility model belongs to heat supply process field, and in particular to a kind of heating system water route.

Background technology

The measure that China mainly takes is that collection heat supply is exactly in a larger region, using central heat source, to the area The factory in domain and civil buildings supply production, life and heating heat.Central heating, the history of existing last 100 years, development speed Quickly, more than 20 country uses central heating in the world.

At present, all it is that water is carried out in heating process by absorption heating group in heating field, due to being all by list What one mode of heating carried out, the consumption so to the energy is bigger, simultaneously as can go out in the duct during long-term use The deposition of existing incrustation scale, and impurity is deposited without specific position in pipeline, so can not also be cleared up, remove dredging pipe Road, can only replace pipeline or be cleared up on a large scale, can so cause to imitate during the waste and blocking of human resources The reduction of rate.

Utility model content

The purpose of this utility model is to provide a kind of heating system water route, to solve proposed in the above background technology ask Topic.

To achieve the above object, the utility model provides following technical solution：A kind of heating system water route, including it is absorption Heating group, hot group of user's need, inlet channel, outlet conduit, control valve, solar thermal collector and precipitation component, it is described absorption Heating group needs heat group to form system heat supply water route by the connection of inlet channel and outlet conduit with user, and the outlet pipe is said Be provided with the first temperature sensor at mouthful, outlet conduit into being provided with second temperature sensor at access customer accumulation of heat group, it is described go out Waterpipe connects the first water pump, and the right side outlet conduit of first water pump is divided into first branch pipeline and the second branch pipeline, Shown first branch pipeline is internally provided with heating element, and the inlet channel needs heat group lower end to be provided with the second valve in user Door, the second valve lower end inlet channel are connected with precipitation component.

Preferably, the first branch pipeline converges as water outlet again with the second branch pipeline in the left side of second sensor Pipeline, the first branch pipeline right end are provided with the first valve, and the second branch pipeline bottom is provided with control valve.

Preferably, the heating element in the solar thermal collector connection first branch pipeline.

Preferably, the inlet channel is connected with the second water pump, first temperature sensor on the left of precipitation component Absorption heating group internal display is connected by conducting wire with second temperature sensor.

Preferably, the precipitation component includes U-shaped pipe, sedimentation channel, the 3rd valve and water flow sensing unit, described U-shaped Pipe ends connect inlet channel, and U-shaped pipe bottom is provided with sedimentation channel, and the sedimentation channel is left with U-shaped pipe junction End is provided with filter screen, and the 3rd valve is provided with sedimentation channel, current sensing is provided with the U-shaped pipe of the filter screen left side Device, the water flow sensing unit need heat group internal display to be electrically connected by conducting wire with user.

The technique effect and advantage of the utility model：The heating system water route, is divided into two bypass ducts by outlet conduit Road, is provided with the heating element that solar thermal collector is connected inside first bypass line, can be by first branch pipeline Portion's water is heated, and is reduced the opposite conveying ratio for absorbing hot heating group, is reduced the consumption of the energy；At the same time hot group is needed by user Water when being flowed back, inside needs to be handled containing plurality of impurities, by U-shaped pipe inside sedimentation channel, make impurity into Row precipitation, and will be precipitated and discharged by Valve controlling, solving impurity influences flow velocity in water pipe and carries out processing water again Efficiency during environment.

Brief description of the drawings

Fig. 1 is the structure diagram of the utility model；

Fig. 2 is the precipitation component front view of the utility model.

In figure：1 absorption heating group, hot group of 2 users need, 3 inlet channels, 4 outlet conduits, 41 first branch pipelines, 42 The second branch pipeline, 5 first temperature sensors, 6 first water pumps, 7 solar thermal collectors, 8 heating elements, 9 first valves, 10 Two temperature sensors, 11 second water pumps, 12 control valves, 13 precipitation components, 14 second valves, 15 water flow sensing units, 16 filter screens, 17 sedimentation channels, 18U types pipeline, 19 the 3rd valves.

Embodiment

The following is a combination of the drawings in the embodiments of the present utility model, and the technical scheme in the embodiment of the utility model is carried out Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are without making creative work All other embodiments obtained, shall fall within the protection scope of the present invention.

The utility model provides a kind of heating system water route as shown in Figs. 1-2, including absorption heating group 1, user Need heat group 2, inlet channel 3, outlet conduit 4, control valve 12, solar thermal collector 7 and precipitation component 13, the absorption heating Group 1 needs heat group 2 to form system heat supply water route, the outlet conduit 4 by the connection of inlet channel 3 and outlet conduit 4 with user Exit is provided with the first temperature sensor 5, outlet conduit 4 into being provided with second temperature sensor 10 at access customer accumulation of heat group, The outlet conduit 4 connects the first water pump 6, and the right side outlet conduit 4 of first water pump 6 divides for first branch pipeline 41 and the Two bypass lines 42, shown first branch pipeline 41 are internally provided with heating element 8, and the inlet channel 3 needs heat group 2 in user Lower end is provided with the second valve 14, and the 14 lower end inlet channel 3 of the second valve is connected with precipitation component 13.

Further, the first branch pipeline 41 and the second branch pipeline 42 are heavy in the left side of second temperature sensor 10 New convergence is outlet conduit 4, and 41 right end of first branch pipeline is provided with the first valve 9,42 bottom of the second branch pipeline peace Equipped with control valve 12.

Further, the solar thermal collector 7 connects the heating element 8 in the second branch pipeline 42.

Further, the inlet channel 3 is connected with the second water pump 11, first temperature in the left side of precipitation component 13 Sensor 5 is connected absorption 1 internal display of heating group with second temperature sensor 10 by conducting wire.

Further, the precipitation component 13 includes U-shaped pipe 18, sedimentation channel 17, the 3rd valve 19 and current sensing Device 15,18 both ends of U-shaped pipe connect inlet channel 3, and 18 bottom of U-shaped pipe is provided with sedimentation channel 17, and the precipitation is logical Road 17 is provided with filter screen 16 with 18 junction left end of U-shaped pipe, and the 3rd valve 19, the filtering are provided with sedimentation channel 17 Water flow sensing unit 15 is installed, the water flow sensing unit 15 needs heat 2 internal displays of group with user in 16 left side U-shaped pipe 18 of net It is electrically connected by conducting wire.

Specifically, the heating system water route, in use, first will by absorbing hot 1 and first water pump 6 of heating group Hot water and hot gas need heat group 2 to be conveyed by outlet conduit 4 to user, can also pass through solar thermal collector 7 in conveying Water in first branch pipeline 41 is heated again, can be by second temperature sensor 10 to the water in outlet conduit 4 Temperature is detected, and the conveying intensity for absorbing hot heating group 1 can be adjusted according to water temperature, reduces the consumption of the energy；Pass through in hot water User flows back after needing heat group 2, because containing impurity in the water of reflux, at this moment needs by precipitating U-shaped pipe in component 13 18 are precipitated, and are detected whether precipitation in sedimentation channel 17 is filled with by water flow sensing unit 15, are passed through the second valve 14 and the 3rd Valve 19 carries out emission treatment.The heating system water route, can solve the problems, such as that the single energy uses, reduce energy consumption, at the same time Sedimentation problem in recirculation water is solved, ensures water velocity and pipeline service life, improves cleaning efficiency again.

Finally it should be noted that：The above descriptions are merely preferred embodiments of the present invention, is not limited to this Utility model, although the utility model is described in detail with reference to the foregoing embodiments, for those skilled in the art For, it can still modify the technical solution described in foregoing embodiments, or to which part technical characteristic Equivalent substitution is carried out, where within the spirit and principles of the present invention, any modification, equivalent replacement, improvement and so on, It should be included within the scope of protection of this utility model.

Claims (5)

1. a kind of heating system water route, including absorption heating group (1), user need hot group (2), inlet channel (3), outlet conduit (4), control valve (12), solar thermal collector (7) and precipitation component (13), it is characterised in that：The absorption heating group (1) with User needs hot group (2) to form system heat supply water route, the outlet conduit by the connection of inlet channel (3) and outlet conduit (4) (4) exit is provided with the first temperature sensor (5), and outlet conduit (4) is passed into being provided with second temperature at access customer accumulation of heat group Sensor (10), the outlet conduit (4) connect the first water pump (6), and the right side outlet conduit (4) of first water pump (6) is divided into First branch pipeline (41) and the second branch pipeline (42), shown first branch pipeline (41) are internally provided with heating element (8), The inlet channel (3) needs hot group of (2) lower end to be provided with the second valve (14), the second valve (14) lower end water inlet in user Pipeline (3) is connected with precipitation component (13).

A kind of 2. heating system water route according to claim 1, it is characterised in that：The first branch pipeline (41) and the Two bypass lines (42) converge as outlet conduit (4), the first branch pipe again in the left side of second temperature sensor (10) Road (41) right end is provided with the first valve (9), and the second branch pipeline (42) bottom is provided with control valve (12).

A kind of 3. heating system water route according to claim 1, it is characterised in that：Solar thermal collector (7) connection The heating element (8) in the second branch pipeline (42).

A kind of 4. heating system water route according to claim 1, it is characterised in that：The inlet channel (3) is in precipitation group The second water pump (11) is connected with the left of part (13), first temperature sensor (5) is logical with second temperature sensor (10) Cross conducting wire and connect absorption heating group (1) internal display.

A kind of 5. heating system water route according to claim 1, it is characterised in that：The precipitation component (13) includes U-shaped Pipeline (18), sedimentation channel (17), the 3rd valve (19) and water flow sensing unit (15), U-shaped pipe (18) both ends connect into Waterpipe (3), U-shaped pipe (18) bottom are provided with sedimentation channel (17), and the sedimentation channel (17) is connected with U-shaped pipe (18) Place's left end is provided with filter screen (16), and the 3rd valve (19) is provided with sedimentation channel (17), and filter screen (16) left side is U-shaped Water flow sensing unit (15) is installed, the water flow sensing unit (15) needs hot group of (2) internal display to lead to user in pipeline (18) Cross conducting wire electric connection.